src/dawn_native/CommandBuffer.cpp - dawn - Git at Google

 // Copyright 2017 The Dawn Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "dawn_native/CommandBuffer.h"

 #include "dawn_native/BindGroup.h"
 #include "dawn_native/Buffer.h"
 #include "dawn_native/CommandBufferStateTracker.h"
 #include "dawn_native/Commands.h"
 #include "dawn_native/ComputePassEncoder.h"
 #include "dawn_native/ComputePipeline.h"
 #include "dawn_native/Device.h"
 #include "dawn_native/ErrorData.h"
 #include "dawn_native/InputState.h"
 #include "dawn_native/PipelineLayout.h"
 #include "dawn_native/RenderPassEncoder.h"
 #include "dawn_native/RenderPipeline.h"
 #include "dawn_native/Texture.h"

 #include <cstring>
 #include <map>

 namespace dawn_native {

     namespace {

         MaybeError ValidateCopyLocationFitsInTexture(const TextureCopyLocation& location) {
             const TextureBase* texture = location.texture.Get();
             if (location.level >= texture->GetNumMipLevels()) {
                 return DAWN_VALIDATION_ERROR("Copy mip-level out of range");
             }

             if (location.slice >= texture->GetArrayLayers()) {
                 return DAWN_VALIDATION_ERROR("Copy array-layer out of range");
             }

             // All texture dimensions are in uint32_t so by doing checks in uint64_t we avoid
             // overflows.
             uint64_t level = location.level;
             if (uint64_t(location.x) + uint64_t(location.width) >
                     (static_cast<uint64_t>(texture->GetSize().width) >> level) ||
                 uint64_t(location.y) + uint64_t(location.height) >
                     (static_cast<uint64_t>(texture->GetSize().height) >> level)) {
                 return DAWN_VALIDATION_ERROR("Copy would touch outside of the texture");
             }

             // TODO(cwallez@chromium.org): Check the depth bound differently for 2D arrays and 3D
             // textures
             if (location.z != 0 || location.depth != 1) {
                 return DAWN_VALIDATION_ERROR("No support for z != 0 and depth != 1 for now");
             }

             return {};
         }

         bool FitsInBuffer(const BufferBase* buffer, uint32_t offset, uint32_t size) {
             uint32_t bufferSize = buffer->GetSize();
             return offset <= bufferSize && (size <= (bufferSize - offset));
         }

         MaybeError ValidateCopySizeFitsInBuffer(const BufferCopyLocation& location,
                                                 uint32_t dataSize) {
             if (!FitsInBuffer(location.buffer.Get(), location.offset, dataSize)) {
                 return DAWN_VALIDATION_ERROR("Copy would overflow the buffer");
             }

             return {};
         }

         MaybeError ValidateTexelBufferOffset(TextureBase* texture,
                                              const BufferCopyLocation& location) {
             uint32_t texelSize =
                 static_cast<uint32_t>(TextureFormatPixelSize(texture->GetFormat()));
             if (location.offset % texelSize != 0) {
                 return DAWN_VALIDATION_ERROR("Buffer offset must be a multiple of the texel size");
             }

             return {};
         }

         MaybeError ComputeTextureCopyBufferSize(const TextureCopyLocation& location,
                                                 uint32_t rowPitch,
                                                 uint32_t* bufferSize) {
             // TODO(cwallez@chromium.org): check for overflows
             *bufferSize = (rowPitch * (location.height - 1) + location.width) * location.depth;

             return {};
         }

         uint32_t ComputeDefaultRowPitch(TextureBase* texture, uint32_t width) {
             uint32_t texelSize = TextureFormatPixelSize(texture->GetFormat());
             return texelSize * width;
         }

         MaybeError ValidateRowPitch(const TextureCopyLocation& location, uint32_t rowPitch) {
             if (rowPitch % kTextureRowPitchAlignment != 0) {
                 return DAWN_VALIDATION_ERROR("Row pitch must be a multiple of 256");
             }

             uint32_t texelSize = TextureFormatPixelSize(location.texture.Get()->GetFormat());
             if (rowPitch < location.width * texelSize) {
                 return DAWN_VALIDATION_ERROR(
                     "Row pitch must not be less than the number of bytes per row");
             }

             return {};
         }

         MaybeError ValidateCanUseAs(BufferBase* buffer, dawn::BufferUsageBit usage) {
             ASSERT(HasZeroOrOneBits(usage));
             if (!(buffer->GetUsage() & usage)) {
                 return DAWN_VALIDATION_ERROR("buffer doesn't have the required usage.");
             }

             return {};
         }

         MaybeError ValidateCanUseAs(TextureBase* texture, dawn::TextureUsageBit usage) {
             ASSERT(HasZeroOrOneBits(usage));
             if (!(texture->GetUsage() & usage)) {
                 return DAWN_VALIDATION_ERROR("texture doesn't have the required usage.");
             }

             return {};
         }

         enum class PassType {
             Render,
             Compute,
         };

         // Helper class to encapsulate the logic of tracking per-resource usage during the
         // validation of command buffer passes. It is used both to know if there are validation
         // errors, and to get a list of resources used per pass for backends that need the
         // information.
         class PassResourceUsageTracker {
           public:
             void BufferUsedAs(BufferBase* buffer, dawn::BufferUsageBit usage) {
                 // std::map's operator[] will create the key and return 0 if the key didn't exist
                 // before.
                 dawn::BufferUsageBit& storedUsage = mBufferUsages[buffer];

                 if (usage == dawn::BufferUsageBit::Storage &&
                     storedUsage & dawn::BufferUsageBit::Storage) {
                     mStorageUsedMultipleTimes = true;
                 }

                 storedUsage |= usage;
             }

             void TextureUsedAs(TextureBase* texture, dawn::TextureUsageBit usage) {
                 // std::map's operator[] will create the key and return 0 if the key didn't exist
                 // before.
                 dawn::TextureUsageBit& storedUsage = mTextureUsages[texture];

                 if (usage == dawn::TextureUsageBit::Storage &&
                     storedUsage & dawn::TextureUsageBit::Storage) {
                     mStorageUsedMultipleTimes = true;
                 }

                 storedUsage |= usage;
             }

             // Performs the per-pass usage validation checks
             MaybeError ValidateUsages(PassType pass) const {
                 // Storage resources cannot be used twice in the same compute pass
                 if (pass == PassType::Compute && mStorageUsedMultipleTimes) {
                     return DAWN_VALIDATION_ERROR(
                         "Storage resource used multiple times in compute pass");
                 }

                 // Buffers can only be used as single-write or multiple read.
                 for (auto& it : mBufferUsages) {
                     BufferBase* buffer = it.first;
                     dawn::BufferUsageBit usage = it.second;

                     if (usage & ~buffer->GetUsage()) {
                         return DAWN_VALIDATION_ERROR("Buffer missing usage for the pass");
                     }

                     bool readOnly = (usage & kReadOnlyBufferUsages) == usage;
                     bool singleUse = dawn::HasZeroOrOneBits(usage);

                     if (!readOnly && !singleUse) {
                         return DAWN_VALIDATION_ERROR(
                             "Buffer used as writeable usage and another usage in pass");
                     }
                 }

                 // Textures can only be used as single-write or multiple read.
                 // TODO(cwallez@chromium.org): implement per-subresource tracking
                 for (auto& it : mTextureUsages) {
                     TextureBase* texture = it.first;
                     dawn::TextureUsageBit usage = it.second;

                     if (usage & ~texture->GetUsage()) {
                         return DAWN_VALIDATION_ERROR("Texture missing usage for the pass");
                     }

                     // For textures the only read-only usage in a pass is Sampled, so checking the
                     // usage constraint simplifies to checking a single usage bit is set.
                     if (!dawn::HasZeroOrOneBits(it.second)) {
                         return DAWN_VALIDATION_ERROR(
                             "Texture used with more than one usage in pass");
                     }
                 }

                 return {};
             }

             // Returns the per-pass usage for use by backends for APIs with explicit barriers.
             PassResourceUsage AcquireResourceUsage() {
                 PassResourceUsage result;
                 result.buffers.reserve(mBufferUsages.size());
                 result.bufferUsages.reserve(mBufferUsages.size());
                 result.textures.reserve(mTextureUsages.size());
                 result.textureUsages.reserve(mTextureUsages.size());

                 for (auto& it : mBufferUsages) {
                     result.buffers.push_back(it.first);
                     result.bufferUsages.push_back(it.second);
                 }

                 for (auto& it : mTextureUsages) {
                     result.textures.push_back(it.first);
                     result.textureUsages.push_back(it.second);
                 }

                 return result;
             }

           private:
             std::map<BufferBase*, dawn::BufferUsageBit> mBufferUsages;
             std::map<TextureBase*, dawn::TextureUsageBit> mTextureUsages;
             bool mStorageUsedMultipleTimes = false;
         };

         void TrackBindGroupResourceUsage(BindGroupBase* group, PassResourceUsageTracker* tracker) {
             const auto& layoutInfo = group->GetLayout()->GetBindingInfo();

             for (uint32_t i : IterateBitSet(layoutInfo.mask)) {
                 dawn::BindingType type = layoutInfo.types[i];

                 switch (type) {
                     case dawn::BindingType::UniformBuffer: {
                         BufferBase* buffer = group->GetBindingAsBufferView(i)->GetBuffer();
                         tracker->BufferUsedAs(buffer, dawn::BufferUsageBit::Uniform);
                     } break;

                     case dawn::BindingType::StorageBuffer: {
                         BufferBase* buffer = group->GetBindingAsBufferView(i)->GetBuffer();
                         tracker->BufferUsedAs(buffer, dawn::BufferUsageBit::Storage);
                     } break;

                     case dawn::BindingType::SampledTexture: {
                         TextureBase* texture = group->GetBindingAsTextureView(i)->GetTexture();
                         tracker->TextureUsedAs(texture, dawn::TextureUsageBit::Sampled);
                     } break;

                     case dawn::BindingType::Sampler:
                         break;
                 }
             }
         }

     }  // namespace

     enum class CommandBufferBuilder::EncodingState : uint8_t {
         TopLevel,
         ComputePass,
         RenderPass,
         Finished
     };

     // CommandBuffer

     CommandBufferBase::CommandBufferBase(CommandBufferBuilder* builder)
         : ObjectBase(builder->GetDevice()) {
     }

     // CommandBufferBuilder

     CommandBufferBuilder::CommandBufferBuilder(DeviceBase* device)
         : Builder(device), mEncodingState(EncodingState::TopLevel) {
     }

     CommandBufferBuilder::~CommandBufferBuilder() {
         if (!mWereCommandsAcquired) {
             MoveToIterator();
             FreeCommands(&mIterator);
         }
     }

     CommandIterator CommandBufferBuilder::AcquireCommands() {
         ASSERT(!mWereCommandsAcquired);
         mWereCommandsAcquired = true;
         return std::move(mIterator);
     }

     std::vector<PassResourceUsage> CommandBufferBuilder::AcquirePassResourceUsage() {
         ASSERT(!mWerePassUsagesAcquired);
         mWerePassUsagesAcquired = true;
         return std::move(mPassResourceUsages);
     }

     CommandBufferBase* CommandBufferBuilder::GetResultImpl() {
         mEncodingState = EncodingState::Finished;

         MoveToIterator();
         return GetDevice()->CreateCommandBuffer(this);
     }

     void CommandBufferBuilder::MoveToIterator() {
         if (!mWasMovedToIterator) {
             mIterator = std::move(mAllocator);
             mWasMovedToIterator = true;
         }
     }

     void CommandBufferBuilder::PassEnded() {
         if (mEncodingState == EncodingState::ComputePass) {
             mAllocator.Allocate<EndComputePassCmd>(Command::EndComputePass);
         } else {
             ASSERT(mEncodingState == EncodingState::RenderPass);
             mAllocator.Allocate<EndRenderPassCmd>(Command::EndRenderPass);
         }
         mEncodingState = EncodingState::TopLevel;
     }

     void CommandBufferBuilder::ConsumeError(ErrorData* error) {
         HandleError(error->GetMessage().c_str());
         delete error;
     }

     // Implementation of the command buffer validation that can be precomputed before submit

     MaybeError CommandBufferBuilder::ValidateGetResult() {
         MoveToIterator();
         mIterator.Reset();

         Command type;
         while (mIterator.NextCommandId(&type)) {
             switch (type) {
                 case Command::BeginComputePass: {
                     mIterator.NextCommand<BeginComputePassCmd>();
                     DAWN_TRY(ValidateComputePass());
                 } break;

                 case Command::BeginRenderPass: {
                     BeginRenderPassCmd* cmd = mIterator.NextCommand<BeginRenderPassCmd>();
                     DAWN_TRY(ValidateRenderPass(cmd->info.Get()));
                 } break;

                 case Command::CopyBufferToBuffer: {
                     CopyBufferToBufferCmd* copy = mIterator.NextCommand<CopyBufferToBufferCmd>();

                     DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->source, copy->size));
                     DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->destination, copy->size));

                     DAWN_TRY(ValidateCanUseAs(copy->source.buffer.Get(),
                                               dawn::BufferUsageBit::TransferSrc));
                     DAWN_TRY(ValidateCanUseAs(copy->destination.buffer.Get(),
                                               dawn::BufferUsageBit::TransferDst));
                 } break;

                 case Command::CopyBufferToTexture: {
                     CopyBufferToTextureCmd* copy = mIterator.NextCommand<CopyBufferToTextureCmd>();

                     uint32_t bufferCopySize = 0;
                     DAWN_TRY(ValidateRowPitch(copy->destination, copy->rowPitch));
                     DAWN_TRY(ComputeTextureCopyBufferSize(copy->destination, copy->rowPitch,
                                                           &bufferCopySize));

                     DAWN_TRY(ValidateCopyLocationFitsInTexture(copy->destination));
                     DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->source, bufferCopySize));
                     DAWN_TRY(
                         ValidateTexelBufferOffset(copy->destination.texture.Get(), copy->source));

                     DAWN_TRY(ValidateCanUseAs(copy->source.buffer.Get(),
                                               dawn::BufferUsageBit::TransferSrc));
                     DAWN_TRY(ValidateCanUseAs(copy->destination.texture.Get(),
                                               dawn::TextureUsageBit::TransferDst));
                 } break;

                 case Command::CopyTextureToBuffer: {
                     CopyTextureToBufferCmd* copy = mIterator.NextCommand<CopyTextureToBufferCmd>();

                     uint32_t bufferCopySize = 0;
                     DAWN_TRY(ValidateRowPitch(copy->source, copy->rowPitch));
                     DAWN_TRY(ComputeTextureCopyBufferSize(copy->source, copy->rowPitch,
                                                           &bufferCopySize));

                     DAWN_TRY(ValidateCopyLocationFitsInTexture(copy->source));
                     DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->destination, bufferCopySize));
                     DAWN_TRY(
                         ValidateTexelBufferOffset(copy->source.texture.Get(), copy->destination));

                     DAWN_TRY(ValidateCanUseAs(copy->source.texture.Get(),
                                               dawn::TextureUsageBit::TransferSrc));
                     DAWN_TRY(ValidateCanUseAs(copy->destination.buffer.Get(),
                                               dawn::BufferUsageBit::TransferDst));
                 } break;

                 default:
                     return DAWN_VALIDATION_ERROR("Command disallowed outside of a pass");
             }
         }

         return {};
     }

     MaybeError CommandBufferBuilder::ValidateComputePass() {
         PassResourceUsageTracker usageTracker;
         CommandBufferStateTracker persistentState;

         Command type;
         while (mIterator.NextCommandId(&type)) {
             switch (type) {
                 case Command::EndComputePass: {
                     mIterator.NextCommand<EndComputePassCmd>();

                     DAWN_TRY(usageTracker.ValidateUsages(PassType::Compute));
                     mPassResourceUsages.push_back(usageTracker.AcquireResourceUsage());
                     return {};
                 } break;

                 case Command::Dispatch: {
                     mIterator.NextCommand<DispatchCmd>();
                     DAWN_TRY(persistentState.ValidateCanDispatch());
                 } break;

                 case Command::SetComputePipeline: {
                     SetComputePipelineCmd* cmd = mIterator.NextCommand<SetComputePipelineCmd>();
                     ComputePipelineBase* pipeline = cmd->pipeline.Get();
                     persistentState.SetComputePipeline(pipeline);
                 } break;

                 case Command::SetPushConstants: {
                     SetPushConstantsCmd* cmd = mIterator.NextCommand<SetPushConstantsCmd>();
                     mIterator.NextData<uint32_t>(cmd->count);
                     // Validation of count and offset has already been done when the command was
                     // recorded because it impacts the size of an allocation in the
                     // CommandAllocator.
                     if (cmd->stages & ~dawn::ShaderStageBit::Compute) {
                         return DAWN_VALIDATION_ERROR(
                             "SetPushConstants stage must be compute or 0 in compute passes");
                     }
                 } break;

                 case Command::SetBindGroup: {
                     SetBindGroupCmd* cmd = mIterator.NextCommand<SetBindGroupCmd>();

                     TrackBindGroupResourceUsage(cmd->group.Get(), &usageTracker);
                     persistentState.SetBindGroup(cmd->index, cmd->group.Get());
                 } break;

                 default:
                     return DAWN_VALIDATION_ERROR("Command disallowed inside a compute pass");
             }
         }

         return DAWN_VALIDATION_ERROR("Unfinished compute pass");
     }

     MaybeError CommandBufferBuilder::ValidateRenderPass(RenderPassDescriptorBase* renderPass) {
         PassResourceUsageTracker usageTracker;
         CommandBufferStateTracker persistentState;

         // Track usage of the render pass attachments
         for (uint32_t i : IterateBitSet(renderPass->GetColorAttachmentMask())) {
             TextureBase* texture = renderPass->GetColorAttachment(i).view->GetTexture();
             usageTracker.TextureUsedAs(texture, dawn::TextureUsageBit::OutputAttachment);
         }

         if (renderPass->HasDepthStencilAttachment()) {
             TextureBase* texture = renderPass->GetDepthStencilAttachment().view->GetTexture();
             usageTracker.TextureUsedAs(texture, dawn::TextureUsageBit::OutputAttachment);
         }

         Command type;
         while (mIterator.NextCommandId(&type)) {
             switch (type) {
                 case Command::EndRenderPass: {
                     mIterator.NextCommand<EndRenderPassCmd>();

                     DAWN_TRY(usageTracker.ValidateUsages(PassType::Render));
                     mPassResourceUsages.push_back(usageTracker.AcquireResourceUsage());
                     return {};
                 } break;

                 case Command::DrawArrays: {
                     mIterator.NextCommand<DrawArraysCmd>();
                     DAWN_TRY(persistentState.ValidateCanDrawArrays());
                 } break;

                 case Command::DrawElements: {
                     mIterator.NextCommand<DrawElementsCmd>();
                     DAWN_TRY(persistentState.ValidateCanDrawElements());
                 } break;

                 case Command::SetRenderPipeline: {
                     SetRenderPipelineCmd* cmd = mIterator.NextCommand<SetRenderPipelineCmd>();
                     RenderPipelineBase* pipeline = cmd->pipeline.Get();

                     if (!pipeline->IsCompatibleWith(renderPass)) {
                         return DAWN_VALIDATION_ERROR(
                             "Pipeline is incompatible with this render pass");
                     }

                     persistentState.SetRenderPipeline(pipeline);
                 } break;

                 case Command::SetPushConstants: {
                     SetPushConstantsCmd* cmd = mIterator.NextCommand<SetPushConstantsCmd>();
                     mIterator.NextData<uint32_t>(cmd->count);
                     // Validation of count and offset has already been done when the command was
                     // recorded because it impacts the size of an allocation in the
                     // CommandAllocator.
                     if (cmd->stages &
                         ~(dawn::ShaderStageBit::Vertex | dawn::ShaderStageBit::Fragment)) {
                         return DAWN_VALIDATION_ERROR(
                             "SetPushConstants stage must be a subset of (vertex|fragment) in "
                             "render passes");
                     }
                 } break;

                 case Command::SetStencilReference: {
                     mIterator.NextCommand<SetStencilReferenceCmd>();
                 } break;

                 case Command::SetBlendColor: {
                     mIterator.NextCommand<SetBlendColorCmd>();
                 } break;

                 case Command::SetScissorRect: {
                     mIterator.NextCommand<SetScissorRectCmd>();
                 } break;

                 case Command::SetBindGroup: {
                     SetBindGroupCmd* cmd = mIterator.NextCommand<SetBindGroupCmd>();

                     TrackBindGroupResourceUsage(cmd->group.Get(), &usageTracker);
                     persistentState.SetBindGroup(cmd->index, cmd->group.Get());
                 } break;

                 case Command::SetIndexBuffer: {
                     SetIndexBufferCmd* cmd = mIterator.NextCommand<SetIndexBufferCmd>();

                     usageTracker.BufferUsedAs(cmd->buffer.Get(), dawn::BufferUsageBit::Index);
                     persistentState.SetIndexBuffer();
                 } break;

                 case Command::SetVertexBuffers: {
                     SetVertexBuffersCmd* cmd = mIterator.NextCommand<SetVertexBuffersCmd>();
                     auto buffers = mIterator.NextData<Ref<BufferBase>>(cmd->count);
                     mIterator.NextData<uint32_t>(cmd->count);

                     for (uint32_t i = 0; i < cmd->count; ++i) {
                         usageTracker.BufferUsedAs(buffers[i].Get(), dawn::BufferUsageBit::Vertex);
                     }
                     persistentState.SetVertexBuffer(cmd->startSlot, cmd->count);
                 } break;

                 default:
                     return DAWN_VALIDATION_ERROR("Command disallowed inside a render pass");
             }
         }

         return DAWN_VALIDATION_ERROR("Unfinished render pass");
     }

     // Implementation of the API's command recording methods

     ComputePassEncoderBase* CommandBufferBuilder::BeginComputePass() {
         mAllocator.Allocate<BeginComputePassCmd>(Command::BeginComputePass);

         mEncodingState = EncodingState::ComputePass;
         return new ComputePassEncoderBase(GetDevice(), this, &mAllocator);
     }

     RenderPassEncoderBase* CommandBufferBuilder::BeginRenderPass(RenderPassDescriptorBase* info) {
         BeginRenderPassCmd* cmd = mAllocator.Allocate<BeginRenderPassCmd>(Command::BeginRenderPass);
         new (cmd) BeginRenderPassCmd;
         cmd->info = info;

         mEncodingState = EncodingState::RenderPass;
         return new RenderPassEncoderBase(GetDevice(), this, &mAllocator);
     }

     void CommandBufferBuilder::CopyBufferToBuffer(BufferBase* source,
                                                   uint32_t sourceOffset,
                                                   BufferBase* destination,
                                                   uint32_t destinationOffset,
                                                   uint32_t size) {
         CopyBufferToBufferCmd* copy =
             mAllocator.Allocate<CopyBufferToBufferCmd>(Command::CopyBufferToBuffer);
         new (copy) CopyBufferToBufferCmd;
         copy->source.buffer = source;
         copy->source.offset = sourceOffset;
         copy->destination.buffer = destination;
         copy->destination.offset = destinationOffset;
         copy->size = size;
     }

     void CommandBufferBuilder::CopyBufferToTexture(BufferBase* buffer,
                                                    uint32_t bufferOffset,
                                                    uint32_t rowPitch,
                                                    TextureBase* texture,
                                                    uint32_t x,
                                                    uint32_t y,
                                                    uint32_t z,
                                                    uint32_t width,
                                                    uint32_t height,
                                                    uint32_t depth,
                                                    uint32_t level,
                                                    uint32_t slice) {
         if (rowPitch == 0) {
             rowPitch = ComputeDefaultRowPitch(texture, width);
         }
         CopyBufferToTextureCmd* copy =
             mAllocator.Allocate<CopyBufferToTextureCmd>(Command::CopyBufferToTexture);
         new (copy) CopyBufferToTextureCmd;
         copy->source.buffer = buffer;
         copy->source.offset = bufferOffset;
         copy->destination.texture = texture;
         copy->destination.x = x;
         copy->destination.y = y;
         copy->destination.z = z;
         copy->destination.width = width;
         copy->destination.height = height;
         copy->destination.depth = depth;
         copy->destination.level = level;
         copy->destination.slice = slice;
         copy->rowPitch = rowPitch;
     }

     void CommandBufferBuilder::CopyTextureToBuffer(TextureBase* texture,
                                                    uint32_t x,
                                                    uint32_t y,
                                                    uint32_t z,
                                                    uint32_t width,
                                                    uint32_t height,
                                                    uint32_t depth,
                                                    uint32_t level,
                                                    uint32_t slice,
                                                    BufferBase* buffer,
                                                    uint32_t bufferOffset,
                                                    uint32_t rowPitch) {
         if (rowPitch == 0) {
             rowPitch = ComputeDefaultRowPitch(texture, width);
         }
         CopyTextureToBufferCmd* copy =
             mAllocator.Allocate<CopyTextureToBufferCmd>(Command::CopyTextureToBuffer);
         new (copy) CopyTextureToBufferCmd;
         copy->source.texture = texture;
         copy->source.x = x;
         copy->source.y = y;
         copy->source.z = z;
         copy->source.width = width;
         copy->source.height = height;
         copy->source.depth = depth;
         copy->source.level = level;
         copy->source.slice = slice;
         copy->destination.buffer = buffer;
         copy->destination.offset = bufferOffset;
         copy->rowPitch = rowPitch;
     }

 }  // namespace dawn_native
	// Copyright 2017 The Dawn Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "dawn_native/CommandBuffer.h"

	#include "dawn_native/BindGroup.h"
	#include "dawn_native/Buffer.h"
	#include "dawn_native/CommandBufferStateTracker.h"
	#include "dawn_native/Commands.h"
	#include "dawn_native/ComputePassEncoder.h"
	#include "dawn_native/ComputePipeline.h"
	#include "dawn_native/Device.h"
	#include "dawn_native/ErrorData.h"
	#include "dawn_native/InputState.h"
	#include "dawn_native/PipelineLayout.h"
	#include "dawn_native/RenderPassEncoder.h"
	#include "dawn_native/RenderPipeline.h"
	#include "dawn_native/Texture.h"

	#include <cstring>
	#include <map>

	namespace dawn_native {

	namespace {

	MaybeError ValidateCopyLocationFitsInTexture(const TextureCopyLocation& location) {
	const TextureBase* texture = location.texture.Get();
	if (location.level >= texture->GetNumMipLevels()) {
	return DAWN_VALIDATION_ERROR("Copy mip-level out of range");
	}

	if (location.slice >= texture->GetArrayLayers()) {
	return DAWN_VALIDATION_ERROR("Copy array-layer out of range");
	}

	// All texture dimensions are in uint32_t so by doing checks in uint64_t we avoid
	// overflows.
	uint64_t level = location.level;
	if (uint64_t(location.x) + uint64_t(location.width) >
	(static_cast<uint64_t>(texture->GetSize().width) >> level) \|\|
	uint64_t(location.y) + uint64_t(location.height) >
	(static_cast<uint64_t>(texture->GetSize().height) >> level)) {
	return DAWN_VALIDATION_ERROR("Copy would touch outside of the texture");
	}

	// TODO(cwallez@chromium.org): Check the depth bound differently for 2D arrays and 3D
	// textures
	if (location.z != 0 \|\| location.depth != 1) {
	return DAWN_VALIDATION_ERROR("No support for z != 0 and depth != 1 for now");
	}

	return {};
	}

	bool FitsInBuffer(const BufferBase* buffer, uint32_t offset, uint32_t size) {
	uint32_t bufferSize = buffer->GetSize();
	return offset <= bufferSize && (size <= (bufferSize - offset));
	}

	MaybeError ValidateCopySizeFitsInBuffer(const BufferCopyLocation& location,
	uint32_t dataSize) {
	if (!FitsInBuffer(location.buffer.Get(), location.offset, dataSize)) {
	return DAWN_VALIDATION_ERROR("Copy would overflow the buffer");
	}

	return {};
	}

	MaybeError ValidateTexelBufferOffset(TextureBase* texture,
	const BufferCopyLocation& location) {
	uint32_t texelSize =
	static_cast<uint32_t>(TextureFormatPixelSize(texture->GetFormat()));
	if (location.offset % texelSize != 0) {
	return DAWN_VALIDATION_ERROR("Buffer offset must be a multiple of the texel size");
	}

	return {};
	}

	MaybeError ComputeTextureCopyBufferSize(const TextureCopyLocation& location,
	uint32_t rowPitch,
	uint32_t* bufferSize) {
	// TODO(cwallez@chromium.org): check for overflows
	bufferSize = (rowPitch (location.height - 1) + location.width) * location.depth;

	return {};
	}

	uint32_t ComputeDefaultRowPitch(TextureBase* texture, uint32_t width) {
	uint32_t texelSize = TextureFormatPixelSize(texture->GetFormat());
	return texelSize * width;
	}

	MaybeError ValidateRowPitch(const TextureCopyLocation& location, uint32_t rowPitch) {
	if (rowPitch % kTextureRowPitchAlignment != 0) {
	return DAWN_VALIDATION_ERROR("Row pitch must be a multiple of 256");
	}

	uint32_t texelSize = TextureFormatPixelSize(location.texture.Get()->GetFormat());
	if (rowPitch < location.width * texelSize) {
	return DAWN_VALIDATION_ERROR(
	"Row pitch must not be less than the number of bytes per row");
	}

	return {};
	}

	MaybeError ValidateCanUseAs(BufferBase* buffer, dawn::BufferUsageBit usage) {
	ASSERT(HasZeroOrOneBits(usage));
	if (!(buffer->GetUsage() & usage)) {
	return DAWN_VALIDATION_ERROR("buffer doesn't have the required usage.");
	}

	return {};
	}

	MaybeError ValidateCanUseAs(TextureBase* texture, dawn::TextureUsageBit usage) {
	ASSERT(HasZeroOrOneBits(usage));
	if (!(texture->GetUsage() & usage)) {
	return DAWN_VALIDATION_ERROR("texture doesn't have the required usage.");
	}

	return {};
	}

	enum class PassType {
	Render,
	Compute,
	};

	// Helper class to encapsulate the logic of tracking per-resource usage during the
	// validation of command buffer passes. It is used both to know if there are validation
	// errors, and to get a list of resources used per pass for backends that need the
	// information.
	class PassResourceUsageTracker {
	public:
	void BufferUsedAs(BufferBase* buffer, dawn::BufferUsageBit usage) {
	// std::map's operator[] will create the key and return 0 if the key didn't exist
	// before.
	dawn::BufferUsageBit& storedUsage = mBufferUsages[buffer];

	if (usage == dawn::BufferUsageBit::Storage &&
	storedUsage & dawn::BufferUsageBit::Storage) {
	mStorageUsedMultipleTimes = true;
	}

	storedUsage \|= usage;
	}

	void TextureUsedAs(TextureBase* texture, dawn::TextureUsageBit usage) {
	// std::map's operator[] will create the key and return 0 if the key didn't exist
	// before.
	dawn::TextureUsageBit& storedUsage = mTextureUsages[texture];

	if (usage == dawn::TextureUsageBit::Storage &&
	storedUsage & dawn::TextureUsageBit::Storage) {
	mStorageUsedMultipleTimes = true;
	}

	storedUsage \|= usage;
	}

	// Performs the per-pass usage validation checks
	MaybeError ValidateUsages(PassType pass) const {
	// Storage resources cannot be used twice in the same compute pass
	if (pass == PassType::Compute && mStorageUsedMultipleTimes) {
	return DAWN_VALIDATION_ERROR(
	"Storage resource used multiple times in compute pass");
	}

	// Buffers can only be used as single-write or multiple read.
	for (auto& it : mBufferUsages) {
	BufferBase* buffer = it.first;
	dawn::BufferUsageBit usage = it.second;

	if (usage & ~buffer->GetUsage()) {
	return DAWN_VALIDATION_ERROR("Buffer missing usage for the pass");
	}

	bool readOnly = (usage & kReadOnlyBufferUsages) == usage;
	bool singleUse = dawn::HasZeroOrOneBits(usage);

	if (!readOnly && !singleUse) {
	return DAWN_VALIDATION_ERROR(
	"Buffer used as writeable usage and another usage in pass");
	}
	}

	// Textures can only be used as single-write or multiple read.
	// TODO(cwallez@chromium.org): implement per-subresource tracking
	for (auto& it : mTextureUsages) {
	TextureBase* texture = it.first;
	dawn::TextureUsageBit usage = it.second;

	if (usage & ~texture->GetUsage()) {
	return DAWN_VALIDATION_ERROR("Texture missing usage for the pass");
	}

	// For textures the only read-only usage in a pass is Sampled, so checking the
	// usage constraint simplifies to checking a single usage bit is set.
	if (!dawn::HasZeroOrOneBits(it.second)) {
	return DAWN_VALIDATION_ERROR(
	"Texture used with more than one usage in pass");
	}
	}

	return {};
	}

	// Returns the per-pass usage for use by backends for APIs with explicit barriers.
	PassResourceUsage AcquireResourceUsage() {
	PassResourceUsage result;
	result.buffers.reserve(mBufferUsages.size());
	result.bufferUsages.reserve(mBufferUsages.size());
	result.textures.reserve(mTextureUsages.size());
	result.textureUsages.reserve(mTextureUsages.size());

	for (auto& it : mBufferUsages) {
	result.buffers.push_back(it.first);
	result.bufferUsages.push_back(it.second);
	}

	for (auto& it : mTextureUsages) {
	result.textures.push_back(it.first);
	result.textureUsages.push_back(it.second);
	}

	return result;
	}

	private:
	std::map<BufferBase*, dawn::BufferUsageBit> mBufferUsages;
	std::map<TextureBase*, dawn::TextureUsageBit> mTextureUsages;
	bool mStorageUsedMultipleTimes = false;
	};

	void TrackBindGroupResourceUsage(BindGroupBase* group, PassResourceUsageTracker* tracker) {
	const auto& layoutInfo = group->GetLayout()->GetBindingInfo();

	for (uint32_t i : IterateBitSet(layoutInfo.mask)) {
	dawn::BindingType type = layoutInfo.types[i];

	switch (type) {
	case dawn::BindingType::UniformBuffer: {
	BufferBase* buffer = group->GetBindingAsBufferView(i)->GetBuffer();
	tracker->BufferUsedAs(buffer, dawn::BufferUsageBit::Uniform);
	} break;

	case dawn::BindingType::StorageBuffer: {
	BufferBase* buffer = group->GetBindingAsBufferView(i)->GetBuffer();
	tracker->BufferUsedAs(buffer, dawn::BufferUsageBit::Storage);
	} break;

	case dawn::BindingType::SampledTexture: {
	TextureBase* texture = group->GetBindingAsTextureView(i)->GetTexture();
	tracker->TextureUsedAs(texture, dawn::TextureUsageBit::Sampled);
	} break;

	case dawn::BindingType::Sampler:
	break;
	}
	}
	}

	} // namespace

	enum class CommandBufferBuilder::EncodingState : uint8_t {
	TopLevel,
	ComputePass,
	RenderPass,
	Finished
	};

	// CommandBuffer

	CommandBufferBase::CommandBufferBase(CommandBufferBuilder* builder)
	: ObjectBase(builder->GetDevice()) {
	}

	// CommandBufferBuilder

	CommandBufferBuilder::CommandBufferBuilder(DeviceBase* device)
	: Builder(device), mEncodingState(EncodingState::TopLevel) {
	}

	CommandBufferBuilder::~CommandBufferBuilder() {
	if (!mWereCommandsAcquired) {
	MoveToIterator();
	FreeCommands(&mIterator);
	}
	}

	CommandIterator CommandBufferBuilder::AcquireCommands() {
	ASSERT(!mWereCommandsAcquired);
	mWereCommandsAcquired = true;
	return std::move(mIterator);
	}

	std::vector<PassResourceUsage> CommandBufferBuilder::AcquirePassResourceUsage() {
	ASSERT(!mWerePassUsagesAcquired);
	mWerePassUsagesAcquired = true;
	return std::move(mPassResourceUsages);
	}

	CommandBufferBase* CommandBufferBuilder::GetResultImpl() {
	mEncodingState = EncodingState::Finished;

	MoveToIterator();
	return GetDevice()->CreateCommandBuffer(this);
	}

	void CommandBufferBuilder::MoveToIterator() {
	if (!mWasMovedToIterator) {
	mIterator = std::move(mAllocator);
	mWasMovedToIterator = true;
	}
	}

	void CommandBufferBuilder::PassEnded() {
	if (mEncodingState == EncodingState::ComputePass) {
	mAllocator.Allocate<EndComputePassCmd>(Command::EndComputePass);
	} else {
	ASSERT(mEncodingState == EncodingState::RenderPass);
	mAllocator.Allocate<EndRenderPassCmd>(Command::EndRenderPass);
	}
	mEncodingState = EncodingState::TopLevel;
	}

	void CommandBufferBuilder::ConsumeError(ErrorData* error) {
	HandleError(error->GetMessage().c_str());
	delete error;
	}

	// Implementation of the command buffer validation that can be precomputed before submit

	MaybeError CommandBufferBuilder::ValidateGetResult() {
	MoveToIterator();
	mIterator.Reset();

	Command type;
	while (mIterator.NextCommandId(&type)) {
	switch (type) {
	case Command::BeginComputePass: {
	mIterator.NextCommand<BeginComputePassCmd>();
	DAWN_TRY(ValidateComputePass());
	} break;

	case Command::BeginRenderPass: {
	BeginRenderPassCmd* cmd = mIterator.NextCommand<BeginRenderPassCmd>();
	DAWN_TRY(ValidateRenderPass(cmd->info.Get()));
	} break;

	case Command::CopyBufferToBuffer: {
	CopyBufferToBufferCmd* copy = mIterator.NextCommand<CopyBufferToBufferCmd>();

	DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->source, copy->size));
	DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->destination, copy->size));

	DAWN_TRY(ValidateCanUseAs(copy->source.buffer.Get(),
	dawn::BufferUsageBit::TransferSrc));
	DAWN_TRY(ValidateCanUseAs(copy->destination.buffer.Get(),
	dawn::BufferUsageBit::TransferDst));
	} break;

	case Command::CopyBufferToTexture: {
	CopyBufferToTextureCmd* copy = mIterator.NextCommand<CopyBufferToTextureCmd>();

	uint32_t bufferCopySize = 0;
	DAWN_TRY(ValidateRowPitch(copy->destination, copy->rowPitch));
	DAWN_TRY(ComputeTextureCopyBufferSize(copy->destination, copy->rowPitch,
	&bufferCopySize));

	DAWN_TRY(ValidateCopyLocationFitsInTexture(copy->destination));
	DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->source, bufferCopySize));
	DAWN_TRY(
	ValidateTexelBufferOffset(copy->destination.texture.Get(), copy->source));

	DAWN_TRY(ValidateCanUseAs(copy->source.buffer.Get(),
	dawn::BufferUsageBit::TransferSrc));
	DAWN_TRY(ValidateCanUseAs(copy->destination.texture.Get(),
	dawn::TextureUsageBit::TransferDst));
	} break;

	case Command::CopyTextureToBuffer: {
	CopyTextureToBufferCmd* copy = mIterator.NextCommand<CopyTextureToBufferCmd>();

	uint32_t bufferCopySize = 0;
	DAWN_TRY(ValidateRowPitch(copy->source, copy->rowPitch));
	DAWN_TRY(ComputeTextureCopyBufferSize(copy->source, copy->rowPitch,
	&bufferCopySize));

	DAWN_TRY(ValidateCopyLocationFitsInTexture(copy->source));
	DAWN_TRY(ValidateCopySizeFitsInBuffer(copy->destination, bufferCopySize));
	DAWN_TRY(
	ValidateTexelBufferOffset(copy->source.texture.Get(), copy->destination));

	DAWN_TRY(ValidateCanUseAs(copy->source.texture.Get(),
	dawn::TextureUsageBit::TransferSrc));
	DAWN_TRY(ValidateCanUseAs(copy->destination.buffer.Get(),
	dawn::BufferUsageBit::TransferDst));
	} break;

	default:
	return DAWN_VALIDATION_ERROR("Command disallowed outside of a pass");
	}
	}

	return {};
	}

	MaybeError CommandBufferBuilder::ValidateComputePass() {
	PassResourceUsageTracker usageTracker;
	CommandBufferStateTracker persistentState;

	Command type;
	while (mIterator.NextCommandId(&type)) {
	switch (type) {
	case Command::EndComputePass: {
	mIterator.NextCommand<EndComputePassCmd>();

	DAWN_TRY(usageTracker.ValidateUsages(PassType::Compute));
	mPassResourceUsages.push_back(usageTracker.AcquireResourceUsage());
	return {};
	} break;

	case Command::Dispatch: {
	mIterator.NextCommand<DispatchCmd>();
	DAWN_TRY(persistentState.ValidateCanDispatch());
	} break;

	case Command::SetComputePipeline: {
	SetComputePipelineCmd* cmd = mIterator.NextCommand<SetComputePipelineCmd>();
	ComputePipelineBase* pipeline = cmd->pipeline.Get();
	persistentState.SetComputePipeline(pipeline);
	} break;

	case Command::SetPushConstants: {
	SetPushConstantsCmd* cmd = mIterator.NextCommand<SetPushConstantsCmd>();
	mIterator.NextData<uint32_t>(cmd->count);
	// Validation of count and offset has already been done when the command was
	// recorded because it impacts the size of an allocation in the
	// CommandAllocator.
	if (cmd->stages & ~dawn::ShaderStageBit::Compute) {
	return DAWN_VALIDATION_ERROR(
	"SetPushConstants stage must be compute or 0 in compute passes");
	}
	} break;

	case Command::SetBindGroup: {
	SetBindGroupCmd* cmd = mIterator.NextCommand<SetBindGroupCmd>();

	TrackBindGroupResourceUsage(cmd->group.Get(), &usageTracker);
	persistentState.SetBindGroup(cmd->index, cmd->group.Get());
	} break;

	default:
	return DAWN_VALIDATION_ERROR("Command disallowed inside a compute pass");
	}
	}

	return DAWN_VALIDATION_ERROR("Unfinished compute pass");
	}

	MaybeError CommandBufferBuilder::ValidateRenderPass(RenderPassDescriptorBase* renderPass) {
	PassResourceUsageTracker usageTracker;
	CommandBufferStateTracker persistentState;

	// Track usage of the render pass attachments
	for (uint32_t i : IterateBitSet(renderPass->GetColorAttachmentMask())) {
	TextureBase* texture = renderPass->GetColorAttachment(i).view->GetTexture();
	usageTracker.TextureUsedAs(texture, dawn::TextureUsageBit::OutputAttachment);
	}

	if (renderPass->HasDepthStencilAttachment()) {
	TextureBase* texture = renderPass->GetDepthStencilAttachment().view->GetTexture();
	usageTracker.TextureUsedAs(texture, dawn::TextureUsageBit::OutputAttachment);
	}

	Command type;
	while (mIterator.NextCommandId(&type)) {
	switch (type) {
	case Command::EndRenderPass: {
	mIterator.NextCommand<EndRenderPassCmd>();

	DAWN_TRY(usageTracker.ValidateUsages(PassType::Render));
	mPassResourceUsages.push_back(usageTracker.AcquireResourceUsage());
	return {};
	} break;

	case Command::DrawArrays: {
	mIterator.NextCommand<DrawArraysCmd>();
	DAWN_TRY(persistentState.ValidateCanDrawArrays());
	} break;

	case Command::DrawElements: {
	mIterator.NextCommand<DrawElementsCmd>();
	DAWN_TRY(persistentState.ValidateCanDrawElements());
	} break;

	case Command::SetRenderPipeline: {
	SetRenderPipelineCmd* cmd = mIterator.NextCommand<SetRenderPipelineCmd>();
	RenderPipelineBase* pipeline = cmd->pipeline.Get();

	if (!pipeline->IsCompatibleWith(renderPass)) {
	return DAWN_VALIDATION_ERROR(
	"Pipeline is incompatible with this render pass");
	}

	persistentState.SetRenderPipeline(pipeline);
	} break;

	case Command::SetPushConstants: {
	SetPushConstantsCmd* cmd = mIterator.NextCommand<SetPushConstantsCmd>();
	mIterator.NextData<uint32_t>(cmd->count);
	// Validation of count and offset has already been done when the command was
	// recorded because it impacts the size of an allocation in the
	// CommandAllocator.
	if (cmd->stages &
	~(dawn::ShaderStageBit::Vertex \| dawn::ShaderStageBit::Fragment)) {
	return DAWN_VALIDATION_ERROR(
	"SetPushConstants stage must be a subset of (vertex\|fragment) in "
	"render passes");
	}
	} break;

	case Command::SetStencilReference: {
	mIterator.NextCommand<SetStencilReferenceCmd>();
	} break;

	case Command::SetBlendColor: {
	mIterator.NextCommand<SetBlendColorCmd>();
	} break;

	case Command::SetScissorRect: {
	mIterator.NextCommand<SetScissorRectCmd>();
	} break;

	case Command::SetBindGroup: {
	SetBindGroupCmd* cmd = mIterator.NextCommand<SetBindGroupCmd>();

	TrackBindGroupResourceUsage(cmd->group.Get(), &usageTracker);
	persistentState.SetBindGroup(cmd->index, cmd->group.Get());
	} break;

	case Command::SetIndexBuffer: {
	SetIndexBufferCmd* cmd = mIterator.NextCommand<SetIndexBufferCmd>();

	usageTracker.BufferUsedAs(cmd->buffer.Get(), dawn::BufferUsageBit::Index);
	persistentState.SetIndexBuffer();
	} break;

	case Command::SetVertexBuffers: {
	SetVertexBuffersCmd* cmd = mIterator.NextCommand<SetVertexBuffersCmd>();
	auto buffers = mIterator.NextData<Ref<BufferBase>>(cmd->count);
	mIterator.NextData<uint32_t>(cmd->count);

	for (uint32_t i = 0; i < cmd->count; ++i) {
	usageTracker.BufferUsedAs(buffers[i].Get(), dawn::BufferUsageBit::Vertex);
	}
	persistentState.SetVertexBuffer(cmd->startSlot, cmd->count);
	} break;

	default:
	return DAWN_VALIDATION_ERROR("Command disallowed inside a render pass");
	}
	}

	return DAWN_VALIDATION_ERROR("Unfinished render pass");
	}

	// Implementation of the API's command recording methods

	ComputePassEncoderBase* CommandBufferBuilder::BeginComputePass() {
	mAllocator.Allocate<BeginComputePassCmd>(Command::BeginComputePass);

	mEncodingState = EncodingState::ComputePass;
	return new ComputePassEncoderBase(GetDevice(), this, &mAllocator);
	}

	RenderPassEncoderBase* CommandBufferBuilder::BeginRenderPass(RenderPassDescriptorBase* info) {
	BeginRenderPassCmd* cmd = mAllocator.Allocate<BeginRenderPassCmd>(Command::BeginRenderPass);
	new (cmd) BeginRenderPassCmd;
	cmd->info = info;

	mEncodingState = EncodingState::RenderPass;
	return new RenderPassEncoderBase(GetDevice(), this, &mAllocator);
	}

	void CommandBufferBuilder::CopyBufferToBuffer(BufferBase* source,
	uint32_t sourceOffset,
	BufferBase* destination,
	uint32_t destinationOffset,
	uint32_t size) {
	CopyBufferToBufferCmd* copy =
	mAllocator.Allocate<CopyBufferToBufferCmd>(Command::CopyBufferToBuffer);
	new (copy) CopyBufferToBufferCmd;
	copy->source.buffer = source;
	copy->source.offset = sourceOffset;
	copy->destination.buffer = destination;
	copy->destination.offset = destinationOffset;
	copy->size = size;
	}

	void CommandBufferBuilder::CopyBufferToTexture(BufferBase* buffer,
	uint32_t bufferOffset,
	uint32_t rowPitch,
	TextureBase* texture,
	uint32_t x,
	uint32_t y,
	uint32_t z,
	uint32_t width,
	uint32_t height,
	uint32_t depth,
	uint32_t level,
	uint32_t slice) {
	if (rowPitch == 0) {
	rowPitch = ComputeDefaultRowPitch(texture, width);
	}
	CopyBufferToTextureCmd* copy =
	mAllocator.Allocate<CopyBufferToTextureCmd>(Command::CopyBufferToTexture);
	new (copy) CopyBufferToTextureCmd;
	copy->source.buffer = buffer;
	copy->source.offset = bufferOffset;
	copy->destination.texture = texture;
	copy->destination.x = x;
	copy->destination.y = y;
	copy->destination.z = z;
	copy->destination.width = width;
	copy->destination.height = height;
	copy->destination.depth = depth;
	copy->destination.level = level;
	copy->destination.slice = slice;
	copy->rowPitch = rowPitch;
	}

	void CommandBufferBuilder::CopyTextureToBuffer(TextureBase* texture,
	uint32_t x,
	uint32_t y,
	uint32_t z,
	uint32_t width,
	uint32_t height,
	uint32_t depth,
	uint32_t level,
	uint32_t slice,
	BufferBase* buffer,
	uint32_t bufferOffset,
	uint32_t rowPitch) {
	if (rowPitch == 0) {
	rowPitch = ComputeDefaultRowPitch(texture, width);
	}
	CopyTextureToBufferCmd* copy =
	mAllocator.Allocate<CopyTextureToBufferCmd>(Command::CopyTextureToBuffer);
	new (copy) CopyTextureToBufferCmd;
	copy->source.texture = texture;
	copy->source.x = x;
	copy->source.y = y;
	copy->source.z = z;
	copy->source.width = width;
	copy->source.height = height;
	copy->source.depth = depth;
	copy->source.level = level;
	copy->source.slice = slice;
	copy->destination.buffer = buffer;
	copy->destination.offset = bufferOffset;
	copy->rowPitch = rowPitch;
	}

	} // namespace dawn_native