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ContextVk.cpp
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ContextVk.cpp
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//
// 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.
//
// ContextVk.cpp:
// Implements the class methods for ContextVk.
//
#include "libANGLE/renderer/vulkan/ContextVk.h"
#include "common/bitset_utils.h"
#include "common/debug.h"
#include "common/system_utils.h"
#include "common/utilities.h"
#include "image_util/loadimage.h"
#include "libANGLE/Context.h"
#include "libANGLE/Display.h"
#include "libANGLE/Program.h"
#include "libANGLE/Semaphore.h"
#include "libANGLE/ShareGroup.h"
#include "libANGLE/Surface.h"
#include "libANGLE/angletypes.h"
#include "libANGLE/renderer/renderer_utils.h"
#include "libANGLE/renderer/vulkan/BufferVk.h"
#include "libANGLE/renderer/vulkan/CompilerVk.h"
#include "libANGLE/renderer/vulkan/DisplayVk.h"
#include "libANGLE/renderer/vulkan/FenceNVVk.h"
#include "libANGLE/renderer/vulkan/FramebufferVk.h"
#include "libANGLE/renderer/vulkan/MemoryObjectVk.h"
#include "libANGLE/renderer/vulkan/OverlayVk.h"
#include "libANGLE/renderer/vulkan/ProgramPipelineVk.h"
#include "libANGLE/renderer/vulkan/ProgramVk.h"
#include "libANGLE/renderer/vulkan/QueryVk.h"
#include "libANGLE/renderer/vulkan/RenderbufferVk.h"
#include "libANGLE/renderer/vulkan/SamplerVk.h"
#include "libANGLE/renderer/vulkan/SemaphoreVk.h"
#include "libANGLE/renderer/vulkan/ShaderVk.h"
#include "libANGLE/renderer/vulkan/SurfaceVk.h"
#include "libANGLE/renderer/vulkan/SyncVk.h"
#include "libANGLE/renderer/vulkan/TextureVk.h"
#include "libANGLE/renderer/vulkan/TransformFeedbackVk.h"
#include "libANGLE/renderer/vulkan/VertexArrayVk.h"
#include "libANGLE/renderer/vulkan/vk_renderer.h"
#include <fstream>
#include <iostream>
#include <sstream>
namespace rx
{
namespace
{
// If the total size of copyBufferToImage commands in the outside command buffer reaches the
// threshold below, the latter is flushed.
static constexpr VkDeviceSize kMaxBufferToImageCopySize = 64 * 1024 * 1024;
// The number of queueSerials we will reserve for outsideRenderPassCommands when we generate one for
// RenderPassCommands.
static constexpr size_t kMaxReservedOutsideRenderPassQueueSerials = 15;
// Dumping the command stream is disabled by default.
static constexpr bool kEnableCommandStreamDiagnostics = false;
// All glMemoryBarrier bits that related to texture usage
static constexpr GLbitfield kWriteAfterAccessImageMemoryBarriers =
GL_SHADER_IMAGE_ACCESS_BARRIER_BIT;
static constexpr GLbitfield kWriteAfterAccessMemoryBarriers =
kWriteAfterAccessImageMemoryBarriers | GL_SHADER_STORAGE_BARRIER_BIT;
// For shader uniforms such as gl_DepthRange and the viewport size.
struct GraphicsDriverUniforms
{
// Contain packed 8-bit values for atomic counter buffer offsets. These offsets are within
// Vulkan's minStorageBufferOffsetAlignment limit and are used to support unaligned offsets
// allowed in GL.
std::array<uint32_t, 2> acbBufferOffsets;
// .x is near, .y is far
std::array<float, 2> depthRange;
// Used to flip gl_FragCoord. Packed uvec2
uint32_t renderArea;
// Packed vec4 of snorm8
uint32_t flipXY;
// Only the lower 16 bits used
uint32_t dither;
// Various bits of state:
// - Surface rotation
// - Advanced blend equation
// - Sample count
// - Enabled clip planes
// - Depth transformation
uint32_t misc;
};
static_assert(sizeof(GraphicsDriverUniforms) % (sizeof(uint32_t) * 4) == 0,
"GraphicsDriverUniforms should be 16bytes aligned");
// Only used when transform feedback is emulated.
struct GraphicsDriverUniformsExtended
{
GraphicsDriverUniforms common;
// Only used with transform feedback emulation
std::array<int32_t, 4> xfbBufferOffsets;
int32_t xfbVerticesPerInstance;
int32_t padding[3];
};
static_assert(sizeof(GraphicsDriverUniformsExtended) % (sizeof(uint32_t) * 4) == 0,
"GraphicsDriverUniformsExtended should be 16bytes aligned");
struct ComputeDriverUniforms
{
// Atomic counter buffer offsets with the same layout as in GraphicsDriverUniforms.
std::array<uint32_t, 4> acbBufferOffsets;
};
uint32_t MakeFlipUniform(bool flipX, bool flipY, bool invertViewport)
{
// Create snorm values of either -1 or 1, based on whether flipping is enabled or not
// respectively.
constexpr uint8_t kSnormOne = 0x7F;
constexpr uint8_t kSnormMinusOne = 0x81;
// .xy are flips for the fragment stage.
uint32_t x = flipX ? kSnormMinusOne : kSnormOne;
uint32_t y = flipY ? kSnormMinusOne : kSnormOne;
// .zw are flips for the vertex stage.
uint32_t z = x;
uint32_t w = flipY != invertViewport ? kSnormMinusOne : kSnormOne;
return x | y << 8 | z << 16 | w << 24;
}
GLenum DefaultGLErrorCode(VkResult result)
{
switch (result)
{
case VK_ERROR_OUT_OF_HOST_MEMORY:
case VK_ERROR_OUT_OF_DEVICE_MEMORY:
case VK_ERROR_TOO_MANY_OBJECTS:
return GL_OUT_OF_MEMORY;
case VK_ERROR_DEVICE_LOST:
return GL_CONTEXT_LOST;
default:
return GL_INVALID_OPERATION;
}
}
constexpr gl::ShaderMap<vk::ImageLayout> kShaderReadOnlyImageLayouts = {
{gl::ShaderType::Vertex, vk::ImageLayout::VertexShaderReadOnly},
{gl::ShaderType::TessControl, vk::ImageLayout::PreFragmentShadersReadOnly},
{gl::ShaderType::TessEvaluation, vk::ImageLayout::PreFragmentShadersReadOnly},
{gl::ShaderType::Geometry, vk::ImageLayout::PreFragmentShadersReadOnly},
{gl::ShaderType::Fragment, vk::ImageLayout::FragmentShaderReadOnly},
{gl::ShaderType::Compute, vk::ImageLayout::ComputeShaderReadOnly}};
constexpr gl::ShaderMap<vk::ImageLayout> kShaderWriteImageLayouts = {
{gl::ShaderType::Vertex, vk::ImageLayout::VertexShaderWrite},
{gl::ShaderType::TessControl, vk::ImageLayout::PreFragmentShadersWrite},
{gl::ShaderType::TessEvaluation, vk::ImageLayout::PreFragmentShadersWrite},
{gl::ShaderType::Geometry, vk::ImageLayout::PreFragmentShadersWrite},
{gl::ShaderType::Fragment, vk::ImageLayout::FragmentShaderWrite},
{gl::ShaderType::Compute, vk::ImageLayout::ComputeShaderWrite}};
constexpr VkBufferUsageFlags kVertexBufferUsage = VK_BUFFER_USAGE_VERTEX_BUFFER_BIT;
constexpr size_t kDynamicVertexDataSize = 16 * 1024;
bool CanMultiDrawIndirectUseCmd(ContextVk *contextVk,
VertexArrayVk *vertexArray,
gl::PrimitiveMode mode,
GLsizei drawcount,
GLsizei stride)
{
// Use the generic implementation if multiDrawIndirect is disabled, if line loop is being used
// for multiDraw, if drawcount is greater than maxDrawIndirectCount, or if there are streaming
// vertex attributes.
ASSERT(drawcount > 1);
const bool supportsMultiDrawIndirect =
contextVk->getFeatures().supportsMultiDrawIndirect.enabled;
const bool isMultiDrawLineLoop = (mode == gl::PrimitiveMode::LineLoop);
const bool isDrawCountBeyondLimit =
(static_cast<uint32_t>(drawcount) >
contextVk->getRenderer()->getPhysicalDeviceProperties().limits.maxDrawIndirectCount);
const bool isMultiDrawWithStreamingAttribs = vertexArray->getStreamingVertexAttribsMask().any();
const bool canMultiDrawIndirectUseCmd = supportsMultiDrawIndirect && !isMultiDrawLineLoop &&
!isDrawCountBeyondLimit &&
!isMultiDrawWithStreamingAttribs;
return canMultiDrawIndirectUseCmd;
}
uint32_t GetCoverageSampleCount(const gl::State &glState, GLint samples)
{
ASSERT(glState.isSampleCoverageEnabled());
// Get a fraction of the samples based on the coverage parameters.
// There are multiple ways to obtain an integer value from a float -
// truncation, ceil and round
//
// round() provides a more even distribution of values but doesn't seem to play well
// with all vendors (AMD). A way to work around this is to increase the comparison threshold
// of deqp tests. Though this takes care of deqp tests other apps would still have issues.
//
// Truncation provides an uneven distribution near the edges of the interval but seems to
// play well with all vendors.
//
// We are going with truncation for expediency.
return static_cast<uint32_t>(glState.getSampleCoverageValue() * samples);
}
void ApplySampleCoverage(const gl::State &glState, uint32_t coverageSampleCount, uint32_t *maskOut)
{
ASSERT(glState.isSampleCoverageEnabled());
uint32_t coverageMask = angle::BitMask<uint32_t>(coverageSampleCount);
if (glState.getSampleCoverageInvert())
{
coverageMask = ~coverageMask;
}
*maskOut &= coverageMask;
}
SurfaceRotation DetermineSurfaceRotation(const gl::Framebuffer *framebuffer,
const WindowSurfaceVk *windowSurface)
{
if (windowSurface && framebuffer->isDefault())
{
switch (windowSurface->getPreTransform())
{
case VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR:
// Do not rotate gl_Position (surface matches the device's orientation):
return SurfaceRotation::Identity;
case VK_SURFACE_TRANSFORM_ROTATE_90_BIT_KHR:
// Rotate gl_Position 90 degrees:
return SurfaceRotation::Rotated90Degrees;
case VK_SURFACE_TRANSFORM_ROTATE_180_BIT_KHR:
// Rotate gl_Position 180 degrees:
return SurfaceRotation::Rotated180Degrees;
case VK_SURFACE_TRANSFORM_ROTATE_270_BIT_KHR:
// Rotate gl_Position 270 degrees:
return SurfaceRotation::Rotated270Degrees;
default:
UNREACHABLE();
return SurfaceRotation::Identity;
}
}
else
{
// Do not rotate gl_Position (offscreen framebuffer):
return SurfaceRotation::Identity;
}
}
// Should not generate a copy with modern C++.
EventName GetTraceEventName(const char *title, uint64_t counter)
{
EventName buf;
snprintf(buf.data(), kMaxGpuEventNameLen - 1, "%s %llu", title,
static_cast<unsigned long long>(counter));
return buf;
}
vk::ResourceAccess GetColorAccess(const gl::State &state,
const gl::FramebufferState &framebufferState,
const gl::DrawBufferMask &emulatedAlphaMask,
const gl::ProgramExecutable *executable,
size_t colorIndexGL)
{
// No access if draw buffer is disabled altogether
// Without framebuffer fetch:
// No access if color output is masked, or rasterizer discard is enabled
// With framebuffer fetch:
// Read access if color output is masked, or rasterizer discard is enabled
if (!framebufferState.getEnabledDrawBuffers().test(colorIndexGL))
{
return vk::ResourceAccess::Unused;
}
const gl::BlendStateExt &blendStateExt = state.getBlendStateExt();
uint8_t colorMask = gl::BlendStateExt::ColorMaskStorage::GetValueIndexed(
colorIndexGL, blendStateExt.getColorMaskBits());
if (emulatedAlphaMask[colorIndexGL])
{
colorMask &= ~VK_COLOR_COMPONENT_A_BIT;
}
const bool isOutputMasked = colorMask == 0 || state.isRasterizerDiscardEnabled();
if (isOutputMasked)
{
const bool hasFramebufferFetch =
executable ? executable->usesColorFramebufferFetch() : false;
return hasFramebufferFetch ? vk::ResourceAccess::ReadOnly : vk::ResourceAccess::Unused;
}
return vk::ResourceAccess::ReadWrite;
}
vk::ResourceAccess GetDepthAccess(const gl::DepthStencilState &dsState,
const gl::ProgramExecutable *executable,
UpdateDepthFeedbackLoopReason reason)
{
// Skip if depth/stencil not actually accessed.
if (reason == UpdateDepthFeedbackLoopReason::None)
{
return vk::ResourceAccess::Unused;
}
// Note that clear commands don't respect depth test enable, only the mask
// Note Other state can be stated here too in the future, such as rasterizer discard.
if (!dsState.depthTest && reason != UpdateDepthFeedbackLoopReason::Clear)
{
return vk::ResourceAccess::Unused;
}
if (dsState.isDepthMaskedOut())
{
const bool hasFramebufferFetch =
executable ? executable->usesDepthFramebufferFetch() : false;
// If depthFunc is GL_ALWAYS or GL_NEVER, we do not need to load depth value.
return (dsState.depthFunc == GL_ALWAYS || dsState.depthFunc == GL_NEVER) &&
!hasFramebufferFetch
? vk::ResourceAccess::Unused
: vk::ResourceAccess::ReadOnly;
}
return vk::ResourceAccess::ReadWrite;
}
vk::ResourceAccess GetStencilAccess(const gl::DepthStencilState &dsState,
GLuint framebufferStencilSize,
const gl::ProgramExecutable *executable,
UpdateDepthFeedbackLoopReason reason)
{
// Skip if depth/stencil not actually accessed.
if (reason == UpdateDepthFeedbackLoopReason::None)
{
return vk::ResourceAccess::Unused;
}
// Note that clear commands don't respect stencil test enable, only the mask
// Note Other state can be stated here too in the future, such as rasterizer discard.
if (!dsState.stencilTest && reason != UpdateDepthFeedbackLoopReason::Clear)
{
return vk::ResourceAccess::Unused;
}
const bool hasFramebufferFetch = executable ? executable->usesStencilFramebufferFetch() : false;
return dsState.isStencilNoOp(framebufferStencilSize) &&
dsState.isStencilBackNoOp(framebufferStencilSize) && !hasFramebufferFetch
? vk::ResourceAccess::ReadOnly
: vk::ResourceAccess::ReadWrite;
}
egl::ContextPriority GetContextPriority(const gl::State &state)
{
return egl::FromEGLenum<egl::ContextPriority>(state.getContextPriority());
}
bool IsStencilSamplerBinding(const gl::ProgramExecutable &executable, size_t textureUnit)
{
const gl::SamplerFormat format = executable.getSamplerFormatForTextureUnitIndex(textureUnit);
const bool isStencilTexture = format == gl::SamplerFormat::Unsigned;
return isStencilTexture;
}
vk::ImageLayout GetDepthStencilAttachmentImageReadLayout(const vk::ImageHelper &image,
gl::ShaderType firstShader)
{
const bool isDepthTexture =
image.hasRenderPassUsageFlag(vk::RenderPassUsage::DepthTextureSampler);
const bool isStencilTexture =
image.hasRenderPassUsageFlag(vk::RenderPassUsage::StencilTextureSampler);
const bool isDepthReadOnlyAttachment =
image.hasRenderPassUsageFlag(vk::RenderPassUsage::DepthReadOnlyAttachment);
const bool isStencilReadOnlyAttachment =
image.hasRenderPassUsageFlag(vk::RenderPassUsage::StencilReadOnlyAttachment);
const bool isFS = firstShader == gl::ShaderType::Fragment;
// Only called when at least one aspect of the image is bound as texture
ASSERT(isDepthTexture || isStencilTexture);
// Check for feedback loop; this is when depth or stencil is both bound as a texture and is used
// in a non-read-only way as attachment.
if ((isDepthTexture && !isDepthReadOnlyAttachment) ||
(isStencilTexture && !isStencilReadOnlyAttachment))
{
return isFS ? vk::ImageLayout::DepthStencilFragmentShaderFeedback
: vk::ImageLayout::DepthStencilAllShadersFeedback;
}
if (isDepthReadOnlyAttachment)
{
if (isStencilReadOnlyAttachment)
{
// Depth read + stencil read
return isFS ? vk::ImageLayout::DepthReadStencilReadFragmentShaderRead
: vk::ImageLayout::DepthReadStencilReadAllShadersRead;
}
else
{
// Depth read + stencil write
return isFS ? vk::ImageLayout::DepthReadStencilWriteFragmentShaderDepthRead
: vk::ImageLayout::DepthReadStencilWriteAllShadersDepthRead;
}
}
else
{
if (isStencilReadOnlyAttachment)
{
// Depth write + stencil read
return isFS ? vk::ImageLayout::DepthWriteStencilReadFragmentShaderStencilRead
: vk::ImageLayout::DepthWriteStencilReadAllShadersStencilRead;
}
else
{
// Depth write + stencil write: This is definitely a feedback loop and is handled above.
UNREACHABLE();
return vk::ImageLayout::DepthStencilAllShadersFeedback;
}
}
}
vk::ImageLayout GetImageReadLayout(TextureVk *textureVk,
const gl::ProgramExecutable &executable,
size_t textureUnit,
PipelineType pipelineType)
{
vk::ImageHelper &image = textureVk->getImage();
// If this texture has been bound as image and the current executable program accesses images,
// we consider this image's layout as writeable.
if (textureVk->hasBeenBoundAsImage() && executable.hasImages())
{
return pipelineType == PipelineType::Compute ? vk::ImageLayout::ComputeShaderWrite
: vk::ImageLayout::AllGraphicsShadersWrite;
}
gl::ShaderBitSet remainingShaderBits =
executable.getSamplerShaderBitsForTextureUnitIndex(textureUnit);
ASSERT(remainingShaderBits.any());
gl::ShaderType firstShader = remainingShaderBits.first();
gl::ShaderType lastShader = remainingShaderBits.last();
remainingShaderBits.reset(firstShader);
remainingShaderBits.reset(lastShader);
const bool isFragmentShaderOnly = firstShader == gl::ShaderType::Fragment;
if (isFragmentShaderOnly)
{
ASSERT(remainingShaderBits.none() && lastShader == firstShader);
}
if (image.hasRenderPassUsageFlag(vk::RenderPassUsage::RenderTargetAttachment))
{
// Right now we set the *TextureSampler flag only when RenderTargetAttachment is set since
// we do not track all textures in the render pass.
if (image.isDepthOrStencil())
{
if (IsStencilSamplerBinding(executable, textureUnit))
{
image.setRenderPassUsageFlag(vk::RenderPassUsage::StencilTextureSampler);
}
else
{
image.setRenderPassUsageFlag(vk::RenderPassUsage::DepthTextureSampler);
}
return GetDepthStencilAttachmentImageReadLayout(image, firstShader);
}
image.setRenderPassUsageFlag(vk::RenderPassUsage::ColorTextureSampler);
return isFragmentShaderOnly ? vk::ImageLayout::ColorWriteFragmentShaderFeedback
: vk::ImageLayout::ColorWriteAllShadersFeedback;
}
if (image.isDepthOrStencil())
{
// We always use a depth-stencil read-only layout for any depth Textures to simplify
// our implementation's handling of depth-stencil read-only mode. We don't have to
// split a RenderPass to transition a depth texture from shader-read to read-only.
// This improves performance in Manhattan. Future optimizations are likely possible
// here including using specialized barriers without breaking the RenderPass.
return isFragmentShaderOnly ? vk::ImageLayout::DepthReadStencilReadFragmentShaderRead
: vk::ImageLayout::DepthReadStencilReadAllShadersRead;
}
// We barrier against either:
// - Vertex only
// - Fragment only
// - Pre-fragment only (vertex, geometry and tessellation together)
if (remainingShaderBits.any() || firstShader != lastShader)
{
return lastShader == gl::ShaderType::Fragment ? vk::ImageLayout::AllGraphicsShadersReadOnly
: vk::ImageLayout::PreFragmentShadersReadOnly;
}
return kShaderReadOnlyImageLayouts[firstShader];
}
vk::ImageLayout GetImageWriteLayoutAndSubresource(const gl::ImageUnit &imageUnit,
vk::ImageHelper &image,
gl::ShaderBitSet shaderStages,
gl::LevelIndex *levelOut,
uint32_t *layerStartOut,
uint32_t *layerCountOut)
{
*levelOut = gl::LevelIndex(static_cast<uint32_t>(imageUnit.level));
*layerStartOut = 0;
*layerCountOut = image.getLayerCount();
if (imageUnit.layered)
{
*layerStartOut = imageUnit.layered;
*layerCountOut = 1;
}
gl::ShaderType firstShader = shaderStages.first();
gl::ShaderType lastShader = shaderStages.last();
shaderStages.reset(firstShader);
shaderStages.reset(lastShader);
// We barrier against either:
// - Vertex only
// - Fragment only
// - Pre-fragment only (vertex, geometry and tessellation together)
if (shaderStages.any() || firstShader != lastShader)
{
return lastShader == gl::ShaderType::Fragment ? vk::ImageLayout::AllGraphicsShadersWrite
: vk::ImageLayout::PreFragmentShadersWrite;
}
return kShaderWriteImageLayouts[firstShader];
}
template <typename CommandBufferT>
void OnTextureBufferRead(vk::BufferHelper *buffer,
gl::ShaderBitSet stages,
CommandBufferT *commandBufferHelper)
{
ASSERT(stages.any());
// TODO: accept multiple stages in bufferRead. http://anglebug.com/42262235
for (gl::ShaderType stage : stages)
{
// Note: if another range of the same buffer is simultaneously used for storage,
// such as for transform feedback output, or SSBO, unnecessary barriers can be
// generated.
commandBufferHelper->bufferRead(VK_ACCESS_SHADER_READ_BIT, vk::GetPipelineStage(stage),
buffer);
}
}
void OnImageBufferWrite(BufferVk *bufferVk,
gl::ShaderBitSet stages,
vk::CommandBufferHelperCommon *commandBufferHelper)
{
vk::BufferHelper &buffer = bufferVk->getBuffer();
// TODO: accept multiple stages in bufferWrite. http://anglebug.com/42262235
for (gl::ShaderType stage : stages)
{
commandBufferHelper->bufferWrite(VK_ACCESS_SHADER_READ_BIT | VK_ACCESS_SHADER_WRITE_BIT,
vk::GetPipelineStage(stage), &buffer);
}
}
constexpr angle::PackedEnumMap<RenderPassClosureReason, const char *> kRenderPassClosureReason = {{
{RenderPassClosureReason::AlreadySpecifiedElsewhere, nullptr},
{RenderPassClosureReason::ContextDestruction, "Render pass closed due to context destruction"},
{RenderPassClosureReason::ContextChange, "Render pass closed due to context change"},
{RenderPassClosureReason::GLFlush, "Render pass closed due to glFlush()"},
{RenderPassClosureReason::GLFinish, "Render pass closed due to glFinish()"},
{RenderPassClosureReason::EGLSwapBuffers, "Render pass closed due to eglSwapBuffers()"},
{RenderPassClosureReason::EGLWaitClient, "Render pass closed due to eglWaitClient()"},
{RenderPassClosureReason::SurfaceUnMakeCurrent,
"Render pass closed due to onSurfaceUnMakeCurrent()"},
{RenderPassClosureReason::FramebufferBindingChange,
"Render pass closed due to framebuffer binding change"},
{RenderPassClosureReason::FramebufferChange, "Render pass closed due to framebuffer change"},
{RenderPassClosureReason::NewRenderPass,
"Render pass closed due to starting a new render pass"},
{RenderPassClosureReason::BufferUseThenXfbWrite,
"Render pass closed due to buffer use as transform feedback output after prior use in render "
"pass"},
{RenderPassClosureReason::XfbWriteThenVertexIndexBuffer,
"Render pass closed due to transform feedback buffer use as vertex/index input"},
{RenderPassClosureReason::XfbWriteThenIndirectDrawBuffer,
"Render pass closed due to indirect draw buffer previously used as transform feedback output "
"in render pass"},
{RenderPassClosureReason::XfbResumeAfterDrawBasedClear,
"Render pass closed due to transform feedback resume after clear through draw"},
{RenderPassClosureReason::DepthStencilUseInFeedbackLoop,
"Render pass closed due to depth/stencil attachment use under feedback loop"},
{RenderPassClosureReason::DepthStencilWriteAfterFeedbackLoop,
"Render pass closed due to depth/stencil attachment write after feedback loop"},
{RenderPassClosureReason::PipelineBindWhileXfbActive,
"Render pass closed due to graphics pipeline change while transform feedback is active"},
{RenderPassClosureReason::BufferWriteThenMap,
"Render pass closed due to mapping buffer being written to by said render pass"},
{RenderPassClosureReason::BufferWriteThenOutOfRPRead,
"Render pass closed due to non-render-pass read of buffer that was written to in render pass"},
{RenderPassClosureReason::BufferUseThenOutOfRPWrite,
"Render pass closed due to non-render-pass write of buffer that was used in render pass"},
{RenderPassClosureReason::ImageUseThenOutOfRPRead,
"Render pass closed due to non-render-pass read of image that was used in render pass"},
{RenderPassClosureReason::ImageUseThenOutOfRPWrite,
"Render pass closed due to non-render-pass write of image that was used in render pass"},
{RenderPassClosureReason::XfbWriteThenComputeRead,
"Render pass closed due to compute read of buffer previously used as transform feedback "
"output in render pass"},
{RenderPassClosureReason::XfbWriteThenIndirectDispatchBuffer,
"Render pass closed due to indirect dispatch buffer previously used as transform feedback "
"output in render pass"},
{RenderPassClosureReason::ImageAttachmentThenComputeRead,
"Render pass closed due to compute read of image previously used as framebuffer attachment in "
"render pass"},
{RenderPassClosureReason::GetQueryResult, "Render pass closed due to getting query result"},
{RenderPassClosureReason::BeginNonRenderPassQuery,
"Render pass closed due to non-render-pass query begin"},
{RenderPassClosureReason::EndNonRenderPassQuery,
"Render pass closed due to non-render-pass query end"},
{RenderPassClosureReason::TimestampQuery, "Render pass closed due to timestamp query"},
{RenderPassClosureReason::EndRenderPassQuery,
"Render pass closed due to switch from query enabled draw to query disabled draw"},
{RenderPassClosureReason::GLReadPixels, "Render pass closed due to glReadPixels()"},
{RenderPassClosureReason::BufferUseThenReleaseToExternal,
"Render pass closed due to buffer (used by render pass) release to external"},
{RenderPassClosureReason::ImageUseThenReleaseToExternal,
"Render pass closed due to image (used by render pass) release to external"},
{RenderPassClosureReason::BufferInUseWhenSynchronizedMap,
"Render pass closed due to mapping buffer in use by GPU without GL_MAP_UNSYNCHRONIZED_BIT"},
{RenderPassClosureReason::GLMemoryBarrierThenStorageResource,
"Render pass closed due to glMemoryBarrier before storage output in render pass"},
{RenderPassClosureReason::StorageResourceUseThenGLMemoryBarrier,
"Render pass closed due to glMemoryBarrier after storage output in render pass"},
{RenderPassClosureReason::ExternalSemaphoreSignal,
"Render pass closed due to external semaphore signal"},
{RenderPassClosureReason::SyncObjectInit, "Render pass closed due to sync object insertion"},
{RenderPassClosureReason::SyncObjectWithFdInit,
"Render pass closed due to sync object with fd insertion"},
{RenderPassClosureReason::SyncObjectClientWait,
"Render pass closed due to sync object client wait"},
{RenderPassClosureReason::SyncObjectServerWait,
"Render pass closed due to sync object server wait"},
{RenderPassClosureReason::SyncObjectGetStatus,
"Render pass closed due to sync object get status"},
{RenderPassClosureReason::XfbPause, "Render pass closed due to transform feedback pause"},
{RenderPassClosureReason::FramebufferFetchEmulation,
"Render pass closed due to framebuffer fetch emulation"},
{RenderPassClosureReason::GenerateMipmapOnCPU,
"Render pass closed due to fallback to CPU when generating mipmaps"},
{RenderPassClosureReason::CopyTextureOnCPU,
"Render pass closed due to fallback to CPU when copying texture"},
{RenderPassClosureReason::TextureReformatToRenderable,
"Render pass closed due to reformatting texture to a renderable fallback"},
{RenderPassClosureReason::DeviceLocalBufferMap,
"Render pass closed due to mapping device local buffer"},
{RenderPassClosureReason::PrepareForBlit, "Render pass closed prior to draw-based blit"},
{RenderPassClosureReason::PrepareForImageCopy,
"Render pass closed prior to draw-based image copy"},
{RenderPassClosureReason::TemporaryForImageClear,
"Temporary render pass used for image clear closed"},
{RenderPassClosureReason::TemporaryForImageCopy,
"Temporary render pass used for image copy closed"},
{RenderPassClosureReason::TemporaryForOverlayDraw,
"Temporary render pass used for overlay draw closed"},
}};
VkDependencyFlags GetLocalDependencyFlags(ContextVk *contextVk)
{
VkDependencyFlags dependencyFlags = VK_DEPENDENCY_BY_REGION_BIT;
if (contextVk->getCurrentViewCount() > 0)
{
dependencyFlags |= VK_DEPENDENCY_VIEW_LOCAL_BIT;
}
return dependencyFlags;
}
bool BlendModeSupportsDither(const ContextVk *contextVk, size_t colorIndex)
{
const gl::State &state = contextVk->getState();
// Specific combinations of color blend modes are known to work with our dithering emulation.
// Note we specifically don't check alpha blend, as dither isn't applied to alpha.
// See http://b/232574868 for more discussion and reasoning.
gl::BlendFactorType srcBlendFactor = state.getBlendStateExt().getSrcColorIndexed(colorIndex);
gl::BlendFactorType dstBlendFactor = state.getBlendStateExt().getDstColorIndexed(colorIndex);
const bool ditheringCompatibleBlendFactors =
(srcBlendFactor == gl::BlendFactorType::SrcAlpha &&
dstBlendFactor == gl::BlendFactorType::OneMinusSrcAlpha);
const bool allowAdditionalBlendFactors =
contextVk->getFeatures().enableAdditionalBlendFactorsForDithering.enabled &&
(srcBlendFactor == gl::BlendFactorType::One &&
dstBlendFactor == gl::BlendFactorType::OneMinusSrcAlpha);
return ditheringCompatibleBlendFactors || allowAdditionalBlendFactors;
}
bool ShouldUseGraphicsDriverUniformsExtended(const vk::Context *context)
{
return context->getFeatures().emulateTransformFeedback.enabled;
}
bool IsAnySamplesQuery(gl::QueryType type)
{
return type == gl::QueryType::AnySamples || type == gl::QueryType::AnySamplesConservative;
}
enum class GraphicsPipelineSubsetRenderPass
{
Unused,
Required,
};
template <typename Cache>
angle::Result CreateGraphicsPipelineSubset(ContextVk *contextVk,
const vk::GraphicsPipelineDesc &desc,
vk::GraphicsPipelineTransitionBits transition,
GraphicsPipelineSubsetRenderPass renderPass,
Cache *cache,
vk::PipelineCacheAccess *pipelineCache,
vk::PipelineHelper **pipelineOut)
{
const vk::PipelineLayout unusedPipelineLayout;
const vk::ShaderModuleMap unusedShaders;
const vk::SpecializationConstants unusedSpecConsts = {};
if (*pipelineOut != nullptr && !transition.any())
{
return angle::Result::Continue;
}
if (*pipelineOut != nullptr)
{
ASSERT((*pipelineOut)->valid());
if ((*pipelineOut)->findTransition(transition, desc, pipelineOut))
{
return angle::Result::Continue;
}
}
vk::PipelineHelper *oldPipeline = *pipelineOut;
const vk::GraphicsPipelineDesc *descPtr = nullptr;
if (!cache->getPipeline(desc, &descPtr, pipelineOut))
{
const vk::RenderPass unusedRenderPass;
const vk::RenderPass *compatibleRenderPass = &unusedRenderPass;
if (renderPass == GraphicsPipelineSubsetRenderPass::Required)
{
// Pull in a compatible RenderPass if used by this subset.
ANGLE_TRY(contextVk->getCompatibleRenderPass(desc.getRenderPassDesc(),
&compatibleRenderPass));
}
ANGLE_TRY(cache->createPipeline(contextVk, pipelineCache, *compatibleRenderPass,
unusedPipelineLayout, unusedShaders, unusedSpecConsts,
PipelineSource::Draw, desc, &descPtr, pipelineOut));
}
if (oldPipeline)
{
oldPipeline->addTransition(transition, descPtr, *pipelineOut);
}
return angle::Result::Continue;
}
bool QueueSerialsHaveDifferentIndexOrSmaller(const QueueSerial &queueSerial1,
const QueueSerial &queueSerial2)
{
return queueSerial1.getIndex() != queueSerial2.getIndex() || queueSerial1 < queueSerial2;
}
void UpdateImagesWithSharedCacheKey(const gl::ActiveTextureArray<TextureVk *> &activeImages,
const std::vector<gl::ImageBinding> &imageBindings,
const vk::SharedDescriptorSetCacheKey &sharedCacheKey)
{
for (const gl::ImageBinding &imageBinding : imageBindings)
{
uint32_t arraySize = static_cast<uint32_t>(imageBinding.boundImageUnits.size());
for (uint32_t arrayElement = 0; arrayElement < arraySize; ++arrayElement)
{
GLuint imageUnit = imageBinding.boundImageUnits[arrayElement];
// For simplicity, we do not check if uniform is active or duplicate. The worst case is
// we unnecessarily delete the cache entry when image bound to inactive uniform is
// destroyed.
activeImages[imageUnit]->onNewDescriptorSet(sharedCacheKey);
}
}
}
void UpdateBufferWithSharedCacheKey(const gl::OffsetBindingPointer<gl::Buffer> &bufferBinding,
VkDescriptorType descriptorType,
const vk::SharedDescriptorSetCacheKey &sharedCacheKey)
{
if (bufferBinding.get() != nullptr)
{
// For simplicity, we do not check if uniform is active or duplicate. The worst case is
// we unnecessarily delete the cache entry when buffer bound to inactive uniform is
// destroyed.
BufferVk *bufferVk = vk::GetImpl(bufferBinding.get());
vk::BufferHelper &bufferHelper = bufferVk->getBuffer();
if (vk::IsDynamicDescriptor(descriptorType))
{
bufferHelper.getBufferBlock()->onNewDescriptorSet(sharedCacheKey);
}
else
{
bufferHelper.onNewDescriptorSet(sharedCacheKey);
}
}
}
void GenerateTextureUnitSamplerIndexMap(
const std::vector<GLuint> &samplerBoundTextureUnits,
std::unordered_map<size_t, uint32_t> *textureUnitSamplerIndexMapOut)
{
// Create a map of textureUnit <-> samplerIndex
for (size_t samplerIndex = 0; samplerIndex < samplerBoundTextureUnits.size(); samplerIndex++)
{
textureUnitSamplerIndexMapOut->insert(
{samplerBoundTextureUnits[samplerIndex], static_cast<uint32_t>(samplerIndex)});
}
}
} // anonymous namespace
void ContextVk::flushDescriptorSetUpdates()
{
mPerfCounters.writeDescriptorSets +=
mShareGroupVk->getUpdateDescriptorSetsBuilder()->flushDescriptorSetUpdates(getDevice());
}
ANGLE_INLINE void ContextVk::onRenderPassFinished(RenderPassClosureReason reason)
{
if (mRenderPassCommandBuffer != nullptr)
{
pauseRenderPassQueriesIfActive();
// If reason is specified, add it to the command buffer right before ending the render pass,
// so it will show up in GPU debuggers.
const char *reasonText = kRenderPassClosureReason[reason];
if (reasonText)
{
insertEventMarkerImpl(GL_DEBUG_SOURCE_API, reasonText);
}
mRenderPassCommandBuffer = nullptr;
// Restart at subpass 0.
mGraphicsPipelineDesc->resetSubpass(&mGraphicsPipelineTransition);
}
mGraphicsDirtyBits.set(DIRTY_BIT_RENDER_PASS);
}
// ContextVk implementation.
ContextVk::ContextVk(const gl::State &state, gl::ErrorSet *errorSet, vk::Renderer *renderer)
: ContextImpl(state, errorSet),
vk::Context(renderer),
mGraphicsDirtyBitHandlers{},
mComputeDirtyBitHandlers{},
mRenderPassCommandBuffer(nullptr),
mCurrentGraphicsPipeline(nullptr),
mCurrentGraphicsPipelineShaders(nullptr),
mCurrentGraphicsPipelineVertexInput(nullptr),
mCurrentGraphicsPipelineFragmentOutput(nullptr),
mCurrentComputePipeline(nullptr),
mCurrentDrawMode(gl::PrimitiveMode::InvalidEnum),
mCurrentWindowSurface(nullptr),
mCurrentRotationDrawFramebuffer(SurfaceRotation::Identity),
mCurrentRotationReadFramebuffer(SurfaceRotation::Identity),
mActiveRenderPassQueries{},
mLastIndexBufferOffset(nullptr),
mCurrentIndexBuffer(nullptr),
mCurrentIndexBufferOffset(0),
mCurrentDrawElementsType(gl::DrawElementsType::InvalidEnum),
mXfbBaseVertex(0),
mXfbVertexCountPerInstance(0),
mClearColorValue{},
mClearDepthStencilValue{},
mClearColorMasks(0),
mDeferredMemoryBarriers(0),
mFlipYForCurrentSurface(false),
mFlipViewportForDrawFramebuffer(false),
mFlipViewportForReadFramebuffer(false),
mIsAnyHostVisibleBufferWritten(false),
mCurrentQueueSerialIndex(kInvalidQueueSerialIndex),
mOutsideRenderPassCommands(nullptr),
mRenderPassCommands(nullptr),
mQueryEventType(GraphicsEventCmdBuf::NotInQueryCmd),
mGpuEventsEnabled(false),
mPrimaryBufferEventCounter(0),
mHasDeferredFlush(false),
mHasAnyCommandsPendingSubmission(false),
mIsInColorFramebufferFetchMode(false),
mAllowRenderPassToReactivate(true),
mTotalBufferToImageCopySize(0),
mEstimatedPendingImageGarbageSize(0),
mHasWaitSemaphoresPendingSubmission(false),
mGpuClockSync{std::numeric_limits<double>::max(), std::numeric_limits<double>::max()},
mGpuEventTimestampOrigin(0),
mInitialContextPriority(renderer->getDriverPriority(GetContextPriority(state))),
mContextPriority(mInitialContextPriority),
mProtectionType(vk::ConvertProtectionBoolToType(state.hasProtectedContent())),
mShareGroupVk(vk::GetImpl(state.getShareGroup()))
{
ANGLE_TRACE_EVENT0("gpu.angle", "ContextVk::ContextVk");
memset(&mClearColorValue, 0, sizeof(mClearColorValue));
memset(&mClearDepthStencilValue, 0, sizeof(mClearDepthStencilValue));
memset(&mViewport, 0, sizeof(mViewport));
memset(&mScissor, 0, sizeof(mScissor));
// Ensure viewport is within Vulkan requirements
vk::ClampViewport(&mViewport);
mNonIndexedDirtyBitsMask.set();
mNonIndexedDirtyBitsMask.reset(DIRTY_BIT_INDEX_BUFFER);
mIndexedDirtyBitsMask.set();
// Once a command buffer is ended, all bindings (through |vkCmdBind*| calls) are lost per Vulkan
// spec. Once a new command buffer is allocated, we must make sure every previously bound
// resource is bound again.
//
// Note that currently these dirty bits are set every time a new render pass command buffer is
// begun. However, using ANGLE's SecondaryCommandBuffer, the Vulkan command buffer (which is
// the primary command buffer) is not ended, so technically we don't need to rebind these.
mNewGraphicsCommandBufferDirtyBits = DirtyBits{
DIRTY_BIT_RENDER_PASS, DIRTY_BIT_COLOR_ACCESS, DIRTY_BIT_DEPTH_STENCIL_ACCESS,
DIRTY_BIT_PIPELINE_BINDING, DIRTY_BIT_TEXTURES, DIRTY_BIT_VERTEX_BUFFERS,
DIRTY_BIT_INDEX_BUFFER, DIRTY_BIT_SHADER_RESOURCES, DIRTY_BIT_DESCRIPTOR_SETS,
DIRTY_BIT_DRIVER_UNIFORMS,
};
if (getFeatures().supportsTransformFeedbackExtension.enabled ||
getFeatures().emulateTransformFeedback.enabled)
{
mNewGraphicsCommandBufferDirtyBits.set(DIRTY_BIT_TRANSFORM_FEEDBACK_BUFFERS);
}
mNewComputeCommandBufferDirtyBits =
DirtyBits{DIRTY_BIT_PIPELINE_BINDING, DIRTY_BIT_TEXTURES, DIRTY_BIT_SHADER_RESOURCES,
DIRTY_BIT_DESCRIPTOR_SETS, DIRTY_BIT_DRIVER_UNIFORMS};
mDynamicStateDirtyBits = DirtyBits{
DIRTY_BIT_DYNAMIC_VIEWPORT, DIRTY_BIT_DYNAMIC_SCISSOR,
DIRTY_BIT_DYNAMIC_LINE_WIDTH, DIRTY_BIT_DYNAMIC_DEPTH_BIAS,
DIRTY_BIT_DYNAMIC_BLEND_CONSTANTS, DIRTY_BIT_DYNAMIC_STENCIL_COMPARE_MASK,
DIRTY_BIT_DYNAMIC_STENCIL_WRITE_MASK, DIRTY_BIT_DYNAMIC_STENCIL_REFERENCE,
};
if (mRenderer->getFeatures().useVertexInputBindingStrideDynamicState.enabled ||
getFeatures().supportsVertexInputDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_VERTEX_BUFFERS);
}
if (mRenderer->getFeatures().useCullModeDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_CULL_MODE);
}
if (mRenderer->getFeatures().useFrontFaceDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_FRONT_FACE);
}
if (mRenderer->getFeatures().useDepthTestEnableDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_DEPTH_TEST_ENABLE);
}
if (mRenderer->getFeatures().useDepthWriteEnableDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_DEPTH_WRITE_ENABLE);
}
if (mRenderer->getFeatures().useDepthCompareOpDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_DEPTH_COMPARE_OP);
}
if (mRenderer->getFeatures().useStencilTestEnableDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_STENCIL_TEST_ENABLE);
}
if (mRenderer->getFeatures().useStencilOpDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_STENCIL_OP);
}
if (mRenderer->getFeatures().usePrimitiveRestartEnableDynamicState.enabled)
{
mDynamicStateDirtyBits.set(DIRTY_BIT_DYNAMIC_PRIMITIVE_RESTART_ENABLE);