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// Copyright 2019 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.
#include "dawn_native/CommandEncoder.h"
#include "common/BitSetIterator.h"
#include "dawn_native/BindGroup.h"
#include "dawn_native/Buffer.h"
#include "dawn_native/CommandBuffer.h"
#include "dawn_native/CommandBufferStateTracker.h"
#include "dawn_native/CommandValidation.h"
#include "dawn_native/Commands.h"
#include "dawn_native/ComputePassEncoder.h"
#include "dawn_native/Device.h"
#include "dawn_native/ErrorData.h"
#include "dawn_native/RenderPassEncoder.h"
#include "dawn_native/RenderPipeline.h"
#include "dawn_native/ValidationUtils_autogen.h"
#include "dawn_platform/DawnPlatform.h"
#include "dawn_platform/tracing/TraceEvent.h"
#include <cmath>
#include <map>
namespace dawn_native {
namespace {
// TODO(jiawei.shao@intel.com): add validations on the texture-to-texture copies within the
// same texture.
MaybeError ValidateCopySizeFitsInTexture(const TextureCopyView& textureCopy,
const Extent3D& copySize) {
const TextureBase* texture = textureCopy.texture;
if (textureCopy.mipLevel >= texture->GetNumMipLevels()) {
return DAWN_VALIDATION_ERROR("Copy mipLevel out of range");
}
Extent3D mipSize = texture->GetMipLevelPhysicalSize(textureCopy.mipLevel);
// For 2D textures, include the array layer as depth so it can be checked with other
// dimensions.
ASSERT(texture->GetDimension() == wgpu::TextureDimension::e2D);
mipSize.depth = texture->GetArrayLayers();
// All texture dimensions are in uint32_t so by doing checks in uint64_t we avoid
// overflows.
if (static_cast<uint64_t>(textureCopy.origin.x) +
static_cast<uint64_t>(copySize.width) >
static_cast<uint64_t>(mipSize.width) ||
static_cast<uint64_t>(textureCopy.origin.y) +
static_cast<uint64_t>(copySize.height) >
static_cast<uint64_t>(mipSize.height) ||
static_cast<uint64_t>(textureCopy.origin.z) +
static_cast<uint64_t>(copySize.depth) >
static_cast<uint64_t>(mipSize.depth)) {
return DAWN_VALIDATION_ERROR("Copy would touch outside of the texture");
}
return {};
}
MaybeError ValidateCopySizeFitsInBuffer(const Ref<BufferBase>& buffer,
uint64_t offset,
uint64_t size) {
uint64_t bufferSize = buffer->GetSize();
bool fitsInBuffer = offset <= bufferSize && (size <= (bufferSize - offset));
if (!fitsInBuffer) {
return DAWN_VALIDATION_ERROR("Copy would overflow the buffer");
}
return {};
}
MaybeError ValidateCopySizeFitsInBuffer(const BufferCopyView& bufferCopy,
uint64_t dataSize) {
return ValidateCopySizeFitsInBuffer(bufferCopy.buffer, bufferCopy.offset, dataSize);
}
MaybeError ValidateB2BCopyAlignment(uint64_t dataSize,
uint64_t srcOffset,
uint64_t dstOffset) {
// Copy size must be a multiple of 4 bytes on macOS.
if (dataSize % 4 != 0) {
return DAWN_VALIDATION_ERROR("Copy size must be a multiple of 4 bytes");
}
// SourceOffset and destinationOffset must be multiples of 4 bytes on macOS.
if (srcOffset % 4 != 0 || dstOffset % 4 != 0) {
return DAWN_VALIDATION_ERROR(
"Source offset and destination offset must be multiples of 4 bytes");
}
return {};
}
MaybeError ValidateTexelBufferOffset(const BufferCopyView& bufferCopy,
const Format& format) {
if (bufferCopy.offset % format.blockByteSize != 0) {
return DAWN_VALIDATION_ERROR(
"Buffer offset must be a multiple of the texel or block size");
}
return {};
}
MaybeError ValidateRowsPerImage(const Format& format,
uint32_t rowsPerImage,
uint32_t copyHeight) {
if (rowsPerImage < copyHeight) {
return DAWN_VALIDATION_ERROR("rowsPerImage must not be less than the copy height.");
}
if (rowsPerImage % format.blockHeight != 0) {
return DAWN_VALIDATION_ERROR(
"rowsPerImage must be a multiple of compressed texture format block height");
}
return {};
}
MaybeError ValidateTextureSampleCountInCopyCommands(const TextureBase* texture) {
if (texture->GetSampleCount() > 1) {
return DAWN_VALIDATION_ERROR("The sample count of textures must be 1");
}
return {};
}
MaybeError ValidateEntireSubresourceCopied(const TextureCopyView& src,
const TextureCopyView& dst,
const Extent3D& copySize) {
Extent3D srcSize = src.texture->GetSize();
ASSERT(src.texture->GetDimension() == wgpu::TextureDimension::e2D &&
dst.texture->GetDimension() == wgpu::TextureDimension::e2D);
if (dst.origin.x != 0 || dst.origin.y != 0 || srcSize.width != copySize.width ||
srcSize.height != copySize.height) {
return DAWN_VALIDATION_ERROR(
"The entire subresource must be copied when using a depth/stencil texture or "
"when samples are greater than 1.");
}
return {};
}
MaybeError ValidateTextureToTextureCopyRestrictions(const TextureCopyView& src,
const TextureCopyView& dst,
const Extent3D& copySize) {
const uint32_t srcSamples = src.texture->GetSampleCount();
const uint32_t dstSamples = dst.texture->GetSampleCount();
if (srcSamples != dstSamples) {
return DAWN_VALIDATION_ERROR(
"Source and destination textures must have matching sample counts.");
} else if (srcSamples > 1) {
// D3D12 requires entire subresource to be copied when using CopyTextureRegion when
// samples > 1.
DAWN_TRY(ValidateEntireSubresourceCopied(src, dst, copySize));
}
if (src.texture->GetFormat().format != dst.texture->GetFormat().format) {
// Metal requires texture-to-texture copies be the same format
return DAWN_VALIDATION_ERROR("Source and destination texture formats must match.");
}
if (src.texture->GetFormat().HasDepthOrStencil()) {
// D3D12 requires entire subresource to be copied when using CopyTextureRegion is
// used with depth/stencil.
DAWN_TRY(ValidateEntireSubresourceCopied(src, dst, copySize));
}
if (src.texture == dst.texture && src.mipLevel == dst.mipLevel) {
ASSERT(src.texture->GetDimension() == wgpu::TextureDimension::e2D &&
dst.texture->GetDimension() == wgpu::TextureDimension::e2D);
if (IsRangeOverlapped(src.origin.z, dst.origin.z, copySize.depth)) {
return DAWN_VALIDATION_ERROR(
"Copy subresources cannot be overlapped when copying within the same "
"texture.");
}
}
return {};
}
MaybeError ComputeTextureCopyBufferSize(const Format& textureFormat,
const Extent3D& copySize,
uint32_t bytesPerRow,
uint32_t rowsPerImage,
uint32_t* bufferSize) {
ASSERT(rowsPerImage >= copySize.height);
uint32_t blockByteSize = textureFormat.blockByteSize;
uint32_t blockWidth = textureFormat.blockWidth;
uint32_t blockHeight = textureFormat.blockHeight;
// TODO(cwallez@chromium.org): check for overflows
uint32_t slicePitch = bytesPerRow * rowsPerImage / blockWidth;
uint32_t sliceSize = bytesPerRow * (copySize.height / blockHeight - 1) +
(copySize.width / blockWidth) * blockByteSize;
*bufferSize = (slicePitch * (copySize.depth - 1)) + sliceSize;
return {};
}
MaybeError ValidateBytesPerRow(const Format& format,
const Extent3D& copySize,
uint32_t bytesPerRow) {
if (bytesPerRow % kTextureBytesPerRowAlignment != 0) {
return DAWN_VALIDATION_ERROR("bytesPerRow must be a multiple of 256");
}
if (bytesPerRow < copySize.width / format.blockWidth * format.blockByteSize) {
return DAWN_VALIDATION_ERROR(
"bytesPerRow must not be less than the number of bytes per row");
}
return {};
}
MaybeError ValidateImageOrigin(const Format& format, const Origin3D& offset) {
if (offset.x % format.blockWidth != 0) {
return DAWN_VALIDATION_ERROR(
"Offset.x must be a multiple of compressed texture format block width");
}
if (offset.y % format.blockHeight != 0) {
return DAWN_VALIDATION_ERROR(
"Offset.y must be a multiple of compressed texture format block height");
}
return {};
}
MaybeError ValidateImageCopySize(const Format& format, const Extent3D& extent) {
if (extent.width % format.blockWidth != 0) {
return DAWN_VALIDATION_ERROR(
"Extent.width must be a multiple of compressed texture format block width");
}
if (extent.height % format.blockHeight != 0) {
return DAWN_VALIDATION_ERROR(
"Extent.height must be a multiple of compressed texture format block height");
}
return {};
}
MaybeError ValidateCanUseAs(const BufferBase* buffer, wgpu::BufferUsage usage) {
ASSERT(wgpu::HasZeroOrOneBits(usage));
if (!(buffer->GetUsage() & usage)) {
return DAWN_VALIDATION_ERROR("buffer doesn't have the required usage.");
}
return {};
}
MaybeError ValidateCanUseAs(const TextureBase* texture, wgpu::TextureUsage usage) {
ASSERT(wgpu::HasZeroOrOneBits(usage));
if (!(texture->GetUsage() & usage)) {
return DAWN_VALIDATION_ERROR("texture doesn't have the required usage.");
}
return {};
}
MaybeError ValidateAttachmentArrayLayersAndLevelCount(const TextureViewBase* attachment) {
// Currently we do not support layered rendering.
if (attachment->GetLayerCount() > 1) {
return DAWN_VALIDATION_ERROR(
"The layer count of the texture view used as attachment cannot be greater than "
"1");
}
if (attachment->GetLevelCount() > 1) {
return DAWN_VALIDATION_ERROR(
"The mipmap level count of the texture view used as attachment cannot be "
"greater than 1");
}
return {};
}
MaybeError ValidateOrSetAttachmentSize(const TextureViewBase* attachment,
uint32_t* width,
uint32_t* height) {
const Extent3D& textureSize = attachment->GetTexture()->GetSize();
const uint32_t attachmentWidth = textureSize.width >> attachment->GetBaseMipLevel();
const uint32_t attachmentHeight = textureSize.height >> attachment->GetBaseMipLevel();
if (*width == 0) {
DAWN_ASSERT(*height == 0);
*width = attachmentWidth;
*height = attachmentHeight;
DAWN_ASSERT(*width != 0 && *height != 0);
} else if (*width != attachmentWidth || *height != attachmentHeight) {
return DAWN_VALIDATION_ERROR("Attachment size mismatch");
}
return {};
}
MaybeError ValidateOrSetColorAttachmentSampleCount(const TextureViewBase* colorAttachment,
uint32_t* sampleCount) {
if (*sampleCount == 0) {
*sampleCount = colorAttachment->GetTexture()->GetSampleCount();
DAWN_ASSERT(*sampleCount != 0);
} else if (*sampleCount != colorAttachment->GetTexture()->GetSampleCount()) {
return DAWN_VALIDATION_ERROR("Color attachment sample counts mismatch");
}
return {};
}
MaybeError ValidateResolveTarget(
const DeviceBase* device,
const RenderPassColorAttachmentDescriptor& colorAttachment) {
if (colorAttachment.resolveTarget == nullptr) {
return {};
}
const TextureViewBase* resolveTarget = colorAttachment.resolveTarget;
const TextureViewBase* attachment = colorAttachment.attachment;
DAWN_TRY(device->ValidateObject(colorAttachment.resolveTarget));
if (!attachment->GetTexture()->IsMultisampledTexture()) {
return DAWN_VALIDATION_ERROR(
"Cannot set resolve target when the sample count of the color attachment is 1");
}
if (resolveTarget->GetTexture()->IsMultisampledTexture()) {
return DAWN_VALIDATION_ERROR("Cannot use multisampled texture as resolve target");
}
if (resolveTarget->GetLayerCount() > 1) {
return DAWN_VALIDATION_ERROR(
"The array layer count of the resolve target must be 1");
}
if (resolveTarget->GetLevelCount() > 1) {
return DAWN_VALIDATION_ERROR("The mip level count of the resolve target must be 1");
}
uint32_t colorAttachmentBaseMipLevel = attachment->GetBaseMipLevel();
const Extent3D& colorTextureSize = attachment->GetTexture()->GetSize();
uint32_t colorAttachmentWidth = colorTextureSize.width >> colorAttachmentBaseMipLevel;
uint32_t colorAttachmentHeight = colorTextureSize.height >> colorAttachmentBaseMipLevel;
uint32_t resolveTargetBaseMipLevel = resolveTarget->GetBaseMipLevel();
const Extent3D& resolveTextureSize = resolveTarget->GetTexture()->GetSize();
uint32_t resolveTargetWidth = resolveTextureSize.width >> resolveTargetBaseMipLevel;
uint32_t resolveTargetHeight = resolveTextureSize.height >> resolveTargetBaseMipLevel;
if (colorAttachmentWidth != resolveTargetWidth ||
colorAttachmentHeight != resolveTargetHeight) {
return DAWN_VALIDATION_ERROR(
"The size of the resolve target must be the same as the color attachment");
}
wgpu::TextureFormat resolveTargetFormat = resolveTarget->GetFormat().format;
if (resolveTargetFormat != attachment->GetFormat().format) {
return DAWN_VALIDATION_ERROR(
"The format of the resolve target must be the same as the color attachment");
}
return {};
}
MaybeError ValidateRenderPassColorAttachment(
const DeviceBase* device,
const RenderPassColorAttachmentDescriptor& colorAttachment,
uint32_t* width,
uint32_t* height,
uint32_t* sampleCount) {
DAWN_TRY(device->ValidateObject(colorAttachment.attachment));
const TextureViewBase* attachment = colorAttachment.attachment;
if (!attachment->GetFormat().IsColor() || !attachment->GetFormat().isRenderable) {
return DAWN_VALIDATION_ERROR(
"The format of the texture view used as color attachment is not color "
"renderable");
}
DAWN_TRY(ValidateLoadOp(colorAttachment.loadOp));
DAWN_TRY(ValidateStoreOp(colorAttachment.storeOp));
if (colorAttachment.loadOp == wgpu::LoadOp::Clear) {
if (std::isnan(colorAttachment.clearColor.r) ||
std::isnan(colorAttachment.clearColor.g) ||
std::isnan(colorAttachment.clearColor.b) ||
std::isnan(colorAttachment.clearColor.a)) {
return DAWN_VALIDATION_ERROR("Color clear value cannot contain NaN");
}
}
DAWN_TRY(ValidateOrSetColorAttachmentSampleCount(attachment, sampleCount));
DAWN_TRY(ValidateResolveTarget(device, colorAttachment));
DAWN_TRY(ValidateAttachmentArrayLayersAndLevelCount(attachment));
DAWN_TRY(ValidateOrSetAttachmentSize(attachment, width, height));
return {};
}
MaybeError ValidateRenderPassDepthStencilAttachment(
const DeviceBase* device,
const RenderPassDepthStencilAttachmentDescriptor* depthStencilAttachment,
uint32_t* width,
uint32_t* height,
uint32_t* sampleCount) {
DAWN_ASSERT(depthStencilAttachment != nullptr);
DAWN_TRY(device->ValidateObject(depthStencilAttachment->attachment));
const TextureViewBase* attachment = depthStencilAttachment->attachment;
if (!attachment->GetFormat().HasDepthOrStencil() ||
!attachment->GetFormat().isRenderable) {
return DAWN_VALIDATION_ERROR(
"The format of the texture view used as depth stencil attachment is not a "
"depth stencil format");
}
DAWN_TRY(ValidateLoadOp(depthStencilAttachment->depthLoadOp));
DAWN_TRY(ValidateLoadOp(depthStencilAttachment->stencilLoadOp));
DAWN_TRY(ValidateStoreOp(depthStencilAttachment->depthStoreOp));
DAWN_TRY(ValidateStoreOp(depthStencilAttachment->stencilStoreOp));
if (depthStencilAttachment->depthLoadOp == wgpu::LoadOp::Clear &&
std::isnan(depthStencilAttachment->clearDepth)) {
return DAWN_VALIDATION_ERROR("Depth clear value cannot be NaN");
}
// This validates that the depth storeOp and stencil storeOps are the same
if (depthStencilAttachment->depthStoreOp != depthStencilAttachment->stencilStoreOp) {
return DAWN_VALIDATION_ERROR(
"The depth storeOp and stencil storeOp are not the same");
}
// *sampleCount == 0 must only happen when there is no color attachment. In that case we
// do not need to validate the sample count of the depth stencil attachment.
const uint32_t depthStencilSampleCount = attachment->GetTexture()->GetSampleCount();
if (*sampleCount != 0) {
if (depthStencilSampleCount != *sampleCount) {
return DAWN_VALIDATION_ERROR("Depth stencil attachment sample counts mismatch");
}
} else {
*sampleCount = depthStencilSampleCount;
}
DAWN_TRY(ValidateAttachmentArrayLayersAndLevelCount(attachment));
DAWN_TRY(ValidateOrSetAttachmentSize(attachment, width, height));
return {};
}
MaybeError ValidateRenderPassDescriptor(const DeviceBase* device,
const RenderPassDescriptor* descriptor,
uint32_t* width,
uint32_t* height,
uint32_t* sampleCount) {
if (descriptor->colorAttachmentCount > kMaxColorAttachments) {
return DAWN_VALIDATION_ERROR("Setting color attachments out of bounds");
}
for (uint32_t i = 0; i < descriptor->colorAttachmentCount; ++i) {
DAWN_TRY(ValidateRenderPassColorAttachment(device, descriptor->colorAttachments[i],
width, height, sampleCount));
}
if (descriptor->depthStencilAttachment != nullptr) {
DAWN_TRY(ValidateRenderPassDepthStencilAttachment(
device, descriptor->depthStencilAttachment, width, height, sampleCount));
}
if (descriptor->colorAttachmentCount == 0 &&
descriptor->depthStencilAttachment == nullptr) {
return DAWN_VALIDATION_ERROR("Cannot use render pass with no attachments.");
}
return {};
}
MaybeError ValidateComputePassDescriptor(const DeviceBase* device,
const ComputePassDescriptor* descriptor) {
return {};
}
ResultOrError<TextureCopyView> FixTextureCopyView(DeviceBase* device,
const TextureCopyView* view) {
TextureCopyView fixedView = *view;
if (view->arrayLayer != 0) {
if (view->origin.z != 0) {
return DAWN_VALIDATION_ERROR("arrayLayer and origin.z cannot both be != 0");
} else {
fixedView.origin.z = fixedView.arrayLayer;
fixedView.arrayLayer = 1;
device->EmitDeprecationWarning(
"wgpu::TextureCopyView::arrayLayer is deprecated in favor of "
"::origin::z");
}
}
return fixedView;
}
} // namespace
CommandEncoder::CommandEncoder(DeviceBase* device, const CommandEncoderDescriptor*)
: ObjectBase(device), mEncodingContext(device, this) {
}
CommandBufferResourceUsage CommandEncoder::AcquireResourceUsages() {
return CommandBufferResourceUsage{mEncodingContext.AcquirePassUsages(),
std::move(mTopLevelBuffers),
std::move(mTopLevelTextures)};
}
CommandIterator CommandEncoder::AcquireCommands() {
return mEncodingContext.AcquireCommands();
}
// Implementation of the API's command recording methods
ComputePassEncoder* CommandEncoder::BeginComputePass(const ComputePassDescriptor* descriptor) {
DeviceBase* device = GetDevice();
bool success =
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
DAWN_TRY(ValidateComputePassDescriptor(device, descriptor));
allocator->Allocate<BeginComputePassCmd>(Command::BeginComputePass);
return {};
});
if (success) {
ComputePassEncoder* passEncoder =
new ComputePassEncoder(device, this, &mEncodingContext);
mEncodingContext.EnterPass(passEncoder);
return passEncoder;
}
return ComputePassEncoder::MakeError(device, this, &mEncodingContext);
}
RenderPassEncoder* CommandEncoder::BeginRenderPass(const RenderPassDescriptor* descriptor) {
DeviceBase* device = GetDevice();
PassResourceUsageTracker usageTracker(PassType::Render);
bool success =
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
uint32_t width = 0;
uint32_t height = 0;
uint32_t sampleCount = 0;
DAWN_TRY(ValidateRenderPassDescriptor(device, descriptor, &width, &height,
&sampleCount));
ASSERT(width > 0 && height > 0 && sampleCount > 0);
BeginRenderPassCmd* cmd =
allocator->Allocate<BeginRenderPassCmd>(Command::BeginRenderPass);
cmd->attachmentState = device->GetOrCreateAttachmentState(descriptor);
for (uint32_t i : IterateBitSet(cmd->attachmentState->GetColorAttachmentsMask())) {
TextureViewBase* view = descriptor->colorAttachments[i].attachment;
TextureViewBase* resolveTarget = descriptor->colorAttachments[i].resolveTarget;
cmd->colorAttachments[i].view = view;
cmd->colorAttachments[i].resolveTarget = resolveTarget;
cmd->colorAttachments[i].loadOp = descriptor->colorAttachments[i].loadOp;
cmd->colorAttachments[i].storeOp = descriptor->colorAttachments[i].storeOp;
cmd->colorAttachments[i].clearColor =
descriptor->colorAttachments[i].clearColor;
usageTracker.TextureViewUsedAs(view, wgpu::TextureUsage::OutputAttachment);
if (resolveTarget != nullptr) {
usageTracker.TextureViewUsedAs(resolveTarget,
wgpu::TextureUsage::OutputAttachment);
}
}
if (cmd->attachmentState->HasDepthStencilAttachment()) {
TextureViewBase* view = descriptor->depthStencilAttachment->attachment;
cmd->depthStencilAttachment.view = view;
cmd->depthStencilAttachment.clearDepth =
descriptor->depthStencilAttachment->clearDepth;
cmd->depthStencilAttachment.clearStencil =
descriptor->depthStencilAttachment->clearStencil;
cmd->depthStencilAttachment.depthLoadOp =
descriptor->depthStencilAttachment->depthLoadOp;
cmd->depthStencilAttachment.depthStoreOp =
descriptor->depthStencilAttachment->depthStoreOp;
cmd->depthStencilAttachment.stencilLoadOp =
descriptor->depthStencilAttachment->stencilLoadOp;
cmd->depthStencilAttachment.stencilStoreOp =
descriptor->depthStencilAttachment->stencilStoreOp;
usageTracker.TextureViewUsedAs(view, wgpu::TextureUsage::OutputAttachment);
}
cmd->width = width;
cmd->height = height;
return {};
});
if (success) {
RenderPassEncoder* passEncoder =
new RenderPassEncoder(device, this, &mEncodingContext, std::move(usageTracker));
mEncodingContext.EnterPass(passEncoder);
return passEncoder;
}
return RenderPassEncoder::MakeError(device, this, &mEncodingContext);
}
void CommandEncoder::CopyBufferToBuffer(BufferBase* source,
uint64_t sourceOffset,
BufferBase* destination,
uint64_t destinationOffset,
uint64_t size) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(GetDevice()->ValidateObject(source));
DAWN_TRY(GetDevice()->ValidateObject(destination));
if (source == destination) {
return DAWN_VALIDATION_ERROR(
"Source and destination cannot be the same buffer.");
}
DAWN_TRY(ValidateCopySizeFitsInBuffer(source, sourceOffset, size));
DAWN_TRY(ValidateCopySizeFitsInBuffer(destination, destinationOffset, size));
DAWN_TRY(ValidateB2BCopyAlignment(size, sourceOffset, destinationOffset));
DAWN_TRY(ValidateCanUseAs(source, wgpu::BufferUsage::CopySrc));
DAWN_TRY(ValidateCanUseAs(destination, wgpu::BufferUsage::CopyDst));
mTopLevelBuffers.insert(source);
mTopLevelBuffers.insert(destination);
}
// Skip noop copies. Some backends validation rules disallow them.
if (size != 0) {
CopyBufferToBufferCmd* copy =
allocator->Allocate<CopyBufferToBufferCmd>(Command::CopyBufferToBuffer);
copy->source = source;
copy->sourceOffset = sourceOffset;
copy->destination = destination;
copy->destinationOffset = destinationOffset;
copy->size = size;
}
return {};
});
}
void CommandEncoder::CopyBufferToTexture(const BufferCopyView* source,
const TextureCopyView* destination,
const Extent3D* copySize) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
// TODO(dawn:22): Remove once migration from GPUTextureCopyView.arrayLayer to
// GPUTextureCopyView.origin.z is done.
TextureCopyView fixedDest;
DAWN_TRY_ASSIGN(fixedDest, FixTextureCopyView(GetDevice(), destination));
destination = &fixedDest;
// Validate objects before doing the defaulting.
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(GetDevice()->ValidateObject(source->buffer));
DAWN_TRY(GetDevice()->ValidateObject(destination->texture));
}
// Compute default value for rowsPerImage
uint32_t defaultedRowsPerImage = source->rowsPerImage;
if (defaultedRowsPerImage == 0) {
defaultedRowsPerImage = copySize->height;
}
// Perform the rest of the validation using the default values.
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(ValidateTextureSampleCountInCopyCommands(destination->texture));
DAWN_TRY(ValidateRowsPerImage(destination->texture->GetFormat(),
defaultedRowsPerImage, copySize->height));
DAWN_TRY(
ValidateImageOrigin(destination->texture->GetFormat(), destination->origin));
DAWN_TRY(ValidateImageCopySize(destination->texture->GetFormat(), *copySize));
uint32_t bufferCopySize = 0;
DAWN_TRY(ValidateBytesPerRow(destination->texture->GetFormat(), *copySize,
source->bytesPerRow));
DAWN_TRY(ComputeTextureCopyBufferSize(destination->texture->GetFormat(), *copySize,
source->bytesPerRow, defaultedRowsPerImage,
&bufferCopySize));
DAWN_TRY(ValidateCopySizeFitsInTexture(*destination, *copySize));
DAWN_TRY(ValidateCopySizeFitsInBuffer(*source, bufferCopySize));
DAWN_TRY(ValidateTexelBufferOffset(*source, destination->texture->GetFormat()));
DAWN_TRY(ValidateCanUseAs(source->buffer, wgpu::BufferUsage::CopySrc));
DAWN_TRY(ValidateCanUseAs(destination->texture, wgpu::TextureUsage::CopyDst));
mTopLevelBuffers.insert(source->buffer);
mTopLevelTextures.insert(destination->texture);
}
// Record the copy command.
CopyBufferToTextureCmd* copy =
allocator->Allocate<CopyBufferToTextureCmd>(Command::CopyBufferToTexture);
copy->source.buffer = source->buffer;
copy->source.offset = source->offset;
copy->source.bytesPerRow = source->bytesPerRow;
copy->source.rowsPerImage = defaultedRowsPerImage;
copy->destination.texture = destination->texture;
copy->destination.origin = destination->origin;
copy->copySize = *copySize;
copy->destination.mipLevel = destination->mipLevel;
copy->destination.arrayLayer = destination->arrayLayer;
// TODO(cwallez@chromium.org): Make backends use origin.z instead of arrayLayer
copy->destination.arrayLayer = copy->destination.origin.z;
copy->destination.origin.z = 0;
return {};
});
}
void CommandEncoder::CopyTextureToBuffer(const TextureCopyView* source,
const BufferCopyView* destination,
const Extent3D* copySize) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
// TODO(dawn:22): Remove once migration from GPUTextureCopyView.arrayLayer to
// GPUTextureCopyView.origin.z is done.
TextureCopyView fixedSrc;
DAWN_TRY_ASSIGN(fixedSrc, FixTextureCopyView(GetDevice(), source));
source = &fixedSrc;
// Validate objects before doing the defaulting.
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(GetDevice()->ValidateObject(source->texture));
DAWN_TRY(GetDevice()->ValidateObject(destination->buffer));
}
// Compute default value for rowsPerImage
uint32_t defaultedRowsPerImage = destination->rowsPerImage;
if (defaultedRowsPerImage == 0) {
defaultedRowsPerImage = copySize->height;
}
// Perform the rest of the validation using the default values.
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(ValidateTextureSampleCountInCopyCommands(source->texture));
DAWN_TRY(ValidateRowsPerImage(source->texture->GetFormat(), defaultedRowsPerImage,
copySize->height));
DAWN_TRY(ValidateImageOrigin(source->texture->GetFormat(), source->origin));
DAWN_TRY(ValidateImageCopySize(source->texture->GetFormat(), *copySize));
uint32_t bufferCopySize = 0;
DAWN_TRY(ValidateBytesPerRow(source->texture->GetFormat(), *copySize,
destination->bytesPerRow));
DAWN_TRY(ComputeTextureCopyBufferSize(source->texture->GetFormat(), *copySize,
destination->bytesPerRow,
defaultedRowsPerImage, &bufferCopySize));
DAWN_TRY(ValidateCopySizeFitsInTexture(*source, *copySize));
DAWN_TRY(ValidateCopySizeFitsInBuffer(*destination, bufferCopySize));
DAWN_TRY(ValidateTexelBufferOffset(*destination, source->texture->GetFormat()));
DAWN_TRY(ValidateCanUseAs(source->texture, wgpu::TextureUsage::CopySrc));
DAWN_TRY(ValidateCanUseAs(destination->buffer, wgpu::BufferUsage::CopyDst));
mTopLevelTextures.insert(source->texture);
mTopLevelBuffers.insert(destination->buffer);
}
// Record the copy command.
CopyTextureToBufferCmd* copy =
allocator->Allocate<CopyTextureToBufferCmd>(Command::CopyTextureToBuffer);
copy->source.texture = source->texture;
copy->source.origin = source->origin;
copy->copySize = *copySize;
copy->source.mipLevel = source->mipLevel;
copy->source.arrayLayer = source->arrayLayer;
copy->destination.buffer = destination->buffer;
copy->destination.offset = destination->offset;
copy->destination.bytesPerRow = destination->bytesPerRow;
copy->destination.rowsPerImage = defaultedRowsPerImage;
// TODO(cwallez@chromium.org): Make backends use origin.z instead of arrayLayer
copy->source.arrayLayer = copy->source.origin.z;
copy->source.origin.z = 0;
return {};
});
}
void CommandEncoder::CopyTextureToTexture(const TextureCopyView* source,
const TextureCopyView* destination,
const Extent3D* copySize) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
// TODO(dawn:22): Remove once migration from GPUTextureCopyView.arrayLayer to
// GPUTextureCopyView.origin.z is done.
TextureCopyView fixedSrc;
DAWN_TRY_ASSIGN(fixedSrc, FixTextureCopyView(GetDevice(), source));
source = &fixedSrc;
TextureCopyView fixedDest;
DAWN_TRY_ASSIGN(fixedDest, FixTextureCopyView(GetDevice(), destination));
destination = &fixedDest;
if (GetDevice()->IsValidationEnabled()) {
DAWN_TRY(GetDevice()->ValidateObject(source->texture));
DAWN_TRY(GetDevice()->ValidateObject(destination->texture));
DAWN_TRY(
ValidateTextureToTextureCopyRestrictions(*source, *destination, *copySize));
DAWN_TRY(ValidateImageOrigin(source->texture->GetFormat(), source->origin));
DAWN_TRY(ValidateImageCopySize(source->texture->GetFormat(), *copySize));
DAWN_TRY(
ValidateImageOrigin(destination->texture->GetFormat(), destination->origin));
DAWN_TRY(ValidateImageCopySize(destination->texture->GetFormat(), *copySize));
DAWN_TRY(ValidateCopySizeFitsInTexture(*source, *copySize));
DAWN_TRY(ValidateCopySizeFitsInTexture(*destination, *copySize));
DAWN_TRY(ValidateCanUseAs(source->texture, wgpu::TextureUsage::CopySrc));
DAWN_TRY(ValidateCanUseAs(destination->texture, wgpu::TextureUsage::CopyDst));
mTopLevelTextures.insert(source->texture);
mTopLevelTextures.insert(destination->texture);
}
CopyTextureToTextureCmd* copy =
allocator->Allocate<CopyTextureToTextureCmd>(Command::CopyTextureToTexture);
copy->source.texture = source->texture;
copy->source.origin = source->origin;
copy->source.mipLevel = source->mipLevel;
copy->source.arrayLayer = source->arrayLayer;
copy->destination.texture = destination->texture;
copy->destination.origin = destination->origin;
copy->destination.mipLevel = destination->mipLevel;
copy->destination.arrayLayer = destination->arrayLayer;
copy->copySize = *copySize;
// TODO(cwallez@chromium.org): Make backends use origin.z instead of arrayLayer
copy->source.arrayLayer = copy->source.origin.z;
copy->source.origin.z = 0;
copy->destination.arrayLayer = copy->destination.origin.z;
copy->destination.origin.z = 0;
return {};
});
}
void CommandEncoder::InsertDebugMarker(const char* groupLabel) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
InsertDebugMarkerCmd* cmd =
allocator->Allocate<InsertDebugMarkerCmd>(Command::InsertDebugMarker);
cmd->length = strlen(groupLabel);
char* label = allocator->AllocateData<char>(cmd->length + 1);
memcpy(label, groupLabel, cmd->length + 1);
return {};
});
}
void CommandEncoder::PopDebugGroup() {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
allocator->Allocate<PopDebugGroupCmd>(Command::PopDebugGroup);
return {};
});
}
void CommandEncoder::PushDebugGroup(const char* groupLabel) {
mEncodingContext.TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
PushDebugGroupCmd* cmd =
allocator->Allocate<PushDebugGroupCmd>(Command::PushDebugGroup);
cmd->length = strlen(groupLabel);
char* label = allocator->AllocateData<char>(cmd->length + 1);
memcpy(label, groupLabel, cmd->length + 1);
return {};
});
}
CommandBufferBase* CommandEncoder::Finish(const CommandBufferDescriptor* descriptor) {
DeviceBase* device = GetDevice();
// Even if mEncodingContext.Finish() validation fails, calling it will mutate the internal
// state of the encoding context. The internal state is set to finished, and subsequent
// calls to encode commands will generate errors.
if (device->ConsumedError(mEncodingContext.Finish()) ||
device->ConsumedError(device->ValidateIsAlive()) ||
(device->IsValidationEnabled() &&
device->ConsumedError(ValidateFinish(mEncodingContext.GetIterator(),
mEncodingContext.GetPassUsages())))) {
return CommandBufferBase::MakeError(device);
}
ASSERT(!IsError());
return device->CreateCommandBuffer(this, descriptor);
}
// Implementation of the command buffer validation that can be precomputed before submit
MaybeError CommandEncoder::ValidateFinish(CommandIterator* commands,
const PerPassUsages& perPassUsages) const {
TRACE_EVENT0(GetDevice()->GetPlatform(), Validation, "CommandEncoder::ValidateFinish");
DAWN_TRY(GetDevice()->ValidateObject(this));
for (const PassResourceUsage& passUsage : perPassUsages) {
DAWN_TRY(ValidatePassResourceUsage(passUsage));
}
uint64_t debugGroupStackSize = 0;
commands->Reset();
Command type;
while (commands->NextCommandId(&type)) {
switch (type) {
case Command::BeginComputePass: {
commands->NextCommand<BeginComputePassCmd>();
DAWN_TRY(ValidateComputePass(commands));
break;
}
case Command::BeginRenderPass: {
const BeginRenderPassCmd* cmd = commands->NextCommand<BeginRenderPassCmd>();
DAWN_TRY(ValidateRenderPass(commands, cmd));
break;
}
case Command::CopyBufferToBuffer: {
commands->NextCommand<CopyBufferToBufferCmd>();
break;
}
case Command::CopyBufferToTexture: {
commands->NextCommand<CopyBufferToTextureCmd>();
break;
}
case Command::CopyTextureToBuffer: {
commands->NextCommand<CopyTextureToBufferCmd>();
break;
}
case Command::CopyTextureToTexture: {
commands->NextCommand<CopyTextureToTextureCmd>();
break;
}
case Command::InsertDebugMarker: {
const InsertDebugMarkerCmd* cmd = commands->NextCommand<InsertDebugMarkerCmd>();
commands->NextData<char>(cmd->length + 1);
break;
}
case Command::PopDebugGroup: {
commands->NextCommand<PopDebugGroupCmd>();
DAWN_TRY(ValidateCanPopDebugGroup(debugGroupStackSize));
debugGroupStackSize--;
break;
}
case Command::PushDebugGroup: {
const PushDebugGroupCmd* cmd = commands->NextCommand<PushDebugGroupCmd>();
commands->NextData<char>(cmd->length + 1);
debugGroupStackSize++;
break;
}
default:
return DAWN_VALIDATION_ERROR("Command disallowed outside of a pass");
}
}
DAWN_TRY(ValidateFinalDebugGroupStackSize(debugGroupStackSize));
return {};
}
} // namespace dawn_native