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

 // 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/RenderEncoderBase.h"

 #include "common/Constants.h"
 #include "common/Log.h"
 #include "dawn_native/Buffer.h"
 #include "dawn_native/CommandEncoder.h"
 #include "dawn_native/CommandValidation.h"
 #include "dawn_native/Commands.h"
 #include "dawn_native/Device.h"
 #include "dawn_native/RenderPipeline.h"
 #include "dawn_native/ValidationUtils_autogen.h"

 #include <math.h>
 #include <cstring>

 namespace dawn_native {

     RenderEncoderBase::RenderEncoderBase(DeviceBase* device,
                                          const char* label,
                                          EncodingContext* encodingContext,
                                          Ref<AttachmentState> attachmentState,
                                          bool depthReadOnly,
                                          bool stencilReadOnly)
         : ProgrammableEncoder(device, label, encodingContext),
           mIndirectDrawMetadata(device->GetLimits()),
           mAttachmentState(std::move(attachmentState)),
           mDisableBaseVertex(device->IsToggleEnabled(Toggle::DisableBaseVertex)),
           mDisableBaseInstance(device->IsToggleEnabled(Toggle::DisableBaseInstance)) {
         mDepthReadOnly = depthReadOnly;
         mStencilReadOnly = stencilReadOnly;
     }

     RenderEncoderBase::RenderEncoderBase(DeviceBase* device,
                                          EncodingContext* encodingContext,
                                          ErrorTag errorTag)
         : ProgrammableEncoder(device, encodingContext, errorTag),
           mIndirectDrawMetadata(device->GetLimits()),
           mDisableBaseVertex(device->IsToggleEnabled(Toggle::DisableBaseVertex)),
           mDisableBaseInstance(device->IsToggleEnabled(Toggle::DisableBaseInstance)) {
     }

     void RenderEncoderBase::DestroyImpl() {
         // Remove reference to the attachment state so that we don't have lingering references to
         // it preventing it from being uncached in the device.
         mAttachmentState = nullptr;
     }

     const AttachmentState* RenderEncoderBase::GetAttachmentState() const {
         ASSERT(!IsError());
         ASSERT(mAttachmentState != nullptr);
         return mAttachmentState.Get();
     }

     bool RenderEncoderBase::IsDepthReadOnly() const {
         ASSERT(!IsError());
         return mDepthReadOnly;
     }

     bool RenderEncoderBase::IsStencilReadOnly() const {
         ASSERT(!IsError());
         return mStencilReadOnly;
     }

     Ref<AttachmentState> RenderEncoderBase::AcquireAttachmentState() {
         return std::move(mAttachmentState);
     }

     void RenderEncoderBase::APIDraw(uint32_t vertexCount,
                                     uint32_t instanceCount,
                                     uint32_t firstVertex,
                                     uint32_t firstInstance) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(mCommandBufferState.ValidateCanDraw());

                     DAWN_INVALID_IF(mDisableBaseInstance && firstInstance != 0,
                                     "First instance (%u) must be zero.", firstInstance);

                     DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForVertexBuffer(vertexCount,
                                                                                       firstVertex));
                     DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForInstanceBuffer(
                         instanceCount, firstInstance));
                 }

                 DrawCmd* draw = allocator->Allocate<DrawCmd>(Command::Draw);
                 draw->vertexCount = vertexCount;
                 draw->instanceCount = instanceCount;
                 draw->firstVertex = firstVertex;
                 draw->firstInstance = firstInstance;

                 return {};
             },
             "encoding %s.Draw(%u, %u, %u, %u).", this, vertexCount, instanceCount, firstVertex,
             firstInstance);
     }

     void RenderEncoderBase::APIDrawIndexed(uint32_t indexCount,
                                            uint32_t instanceCount,
                                            uint32_t firstIndex,
                                            int32_t baseVertex,
                                            uint32_t firstInstance) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(mCommandBufferState.ValidateCanDrawIndexed());

                     DAWN_INVALID_IF(mDisableBaseInstance && firstInstance != 0,
                                     "First instance (%u) must be zero.", firstInstance);

                     DAWN_INVALID_IF(mDisableBaseVertex && baseVertex != 0,
                                     "Base vertex (%u) must be zero.", baseVertex);

                     DAWN_TRY(
                         mCommandBufferState.ValidateIndexBufferInRange(indexCount, firstIndex));

                     // Although we don't know actual vertex access range in CPU, we still call the
                     // ValidateBufferInRangeForVertexBuffer in order to deal with those vertex step
                     // mode vertex buffer with an array stride of zero.
                     DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForVertexBuffer(0, 0));
                     DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForInstanceBuffer(
                         instanceCount, firstInstance));
                 }

                 DrawIndexedCmd* draw = allocator->Allocate<DrawIndexedCmd>(Command::DrawIndexed);
                 draw->indexCount = indexCount;
                 draw->instanceCount = instanceCount;
                 draw->firstIndex = firstIndex;
                 draw->baseVertex = baseVertex;
                 draw->firstInstance = firstInstance;

                 return {};
             },
             "encoding %s.DrawIndexed(%u, %u, %u, %i, %u).", this, indexCount, instanceCount,
             firstIndex, baseVertex, firstInstance);
     }

     void RenderEncoderBase::APIDrawIndirect(BufferBase* indirectBuffer, uint64_t indirectOffset) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
                     DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
                     DAWN_TRY(mCommandBufferState.ValidateCanDraw());

                     DAWN_INVALID_IF(indirectOffset % 4 != 0,
                                     "Indirect offset (%u) is not a multiple of 4.", indirectOffset);

                     DAWN_INVALID_IF(
                         indirectOffset >= indirectBuffer->GetSize() ||
                             kDrawIndirectSize > indirectBuffer->GetSize() - indirectOffset,
                         "Indirect offset (%u) is out of bounds of indirect buffer %s size (%u).",
                         indirectOffset, indirectBuffer, indirectBuffer->GetSize());
                 }

                 DrawIndirectCmd* cmd = allocator->Allocate<DrawIndirectCmd>(Command::DrawIndirect);
                 cmd->indirectBuffer = indirectBuffer;
                 cmd->indirectOffset = indirectOffset;

                 mUsageTracker.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);

                 return {};
             },
             "encoding %s.DrawIndirect(%s, %u).", this, indirectBuffer, indirectOffset);
     }

     void RenderEncoderBase::APIDrawIndexedIndirect(BufferBase* indirectBuffer,
                                                    uint64_t indirectOffset) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
                     DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
                     DAWN_TRY(mCommandBufferState.ValidateCanDrawIndexed());

                     DAWN_INVALID_IF(indirectOffset % 4 != 0,
                                     "Indirect offset (%u) is not a multiple of 4.", indirectOffset);

                     DAWN_INVALID_IF(
                         (indirectOffset >= indirectBuffer->GetSize() ||
                          kDrawIndexedIndirectSize > indirectBuffer->GetSize() - indirectOffset),
                         "Indirect offset (%u) is out of bounds of indirect buffer %s size (%u).",
                         indirectOffset, indirectBuffer, indirectBuffer->GetSize());
                 }

                 DrawIndexedIndirectCmd* cmd =
                     allocator->Allocate<DrawIndexedIndirectCmd>(Command::DrawIndexedIndirect);
                 if (IsValidationEnabled()) {
                     // Later, EncodeIndirectDrawValidationCommands will allocate a scratch storage
                     // buffer which will store the validated indirect data. The buffer and offset
                     // will be updated to point to it.
                     // |EncodeIndirectDrawValidationCommands| is called at the end of encoding the
                     // render pass, while the |cmd| pointer is still valid.
                     cmd->indirectBuffer = nullptr;

                     mIndirectDrawMetadata.AddIndexedIndirectDraw(
                         mCommandBufferState.GetIndexFormat(),
                         mCommandBufferState.GetIndexBufferSize(), indirectBuffer, indirectOffset,
                         cmd);
                 } else {
                     cmd->indirectBuffer = indirectBuffer;
                     cmd->indirectOffset = indirectOffset;
                 }

                 // TODO(crbug.com/dawn/1166): Adding the indirectBuffer is needed for correct usage
                 // validation, but it will unecessarily transition to indirectBuffer usage in the
                 // backend.
                 mUsageTracker.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);

                 return {};
             },
             "encoding %s.DrawIndexedIndirect(%s, %u).", this, indirectBuffer, indirectOffset);
     }

     void RenderEncoderBase::APISetPipeline(RenderPipelineBase* pipeline) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(GetDevice()->ValidateObject(pipeline));

                     // TODO(dawn:563): More detail about why the states are incompatible would be
                     // nice.
                     DAWN_INVALID_IF(
                         pipeline->GetAttachmentState() != mAttachmentState.Get(),
                         "Attachment state of %s is not compatible with the attachment state of %s",
                         pipeline, this);

                     DAWN_INVALID_IF(pipeline->WritesDepth() && mDepthReadOnly,
                                     "%s writes depth while %s's depthReadOnly is true", pipeline,
                                     this);

                     DAWN_INVALID_IF(pipeline->WritesStencil() && mStencilReadOnly,
                                     "%s writes stencil while %s's stencilReadOnly is true",
                                     pipeline, this);
                 }

                 mCommandBufferState.SetRenderPipeline(pipeline);

                 SetRenderPipelineCmd* cmd =
                     allocator->Allocate<SetRenderPipelineCmd>(Command::SetRenderPipeline);
                 cmd->pipeline = pipeline;

                 return {};
             },
             "encoding %s.SetPipeline(%s).", this, pipeline);
     }

     void RenderEncoderBase::APISetIndexBuffer(BufferBase* buffer,
                                               wgpu::IndexFormat format,
                                               uint64_t offset,
                                               uint64_t size) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(GetDevice()->ValidateObject(buffer));
                     DAWN_TRY(ValidateCanUseAs(buffer, wgpu::BufferUsage::Index));

                     DAWN_TRY(ValidateIndexFormat(format));

                     DAWN_INVALID_IF(format == wgpu::IndexFormat::Undefined,
                                     "Index format must be specified");

                     DAWN_INVALID_IF(offset % uint64_t(IndexFormatSize(format)) != 0,
                                     "Index buffer offset (%u) is not a multiple of the size (%u) "
                                     "of %s.",
                                     offset, IndexFormatSize(format), format);

                     uint64_t bufferSize = buffer->GetSize();
                     DAWN_INVALID_IF(offset > bufferSize,
                                     "Index buffer offset (%u) is larger than the size (%u) of %s.",
                                     offset, bufferSize, buffer);

                     uint64_t remainingSize = bufferSize - offset;

                     if (size == wgpu::kWholeSize) {
                         size = remainingSize;
                     } else {
                         DAWN_INVALID_IF(size > remainingSize,
                                         "Index buffer range (offset: %u, size: %u) doesn't fit in "
                                         "the size (%u) of "
                                         "%s.",
                                         offset, size, bufferSize, buffer);
                     }
                 } else {
                     if (size == wgpu::kWholeSize) {
                         DAWN_ASSERT(buffer->GetSize() >= offset);
                         size = buffer->GetSize() - offset;
                     }
                 }

                 mCommandBufferState.SetIndexBuffer(format, size);

                 SetIndexBufferCmd* cmd =
                     allocator->Allocate<SetIndexBufferCmd>(Command::SetIndexBuffer);
                 cmd->buffer = buffer;
                 cmd->format = format;
                 cmd->offset = offset;
                 cmd->size = size;

                 mUsageTracker.BufferUsedAs(buffer, wgpu::BufferUsage::Index);

                 return {};
             },
             "encoding %s.SetIndexBuffer(%s, %s, %u, %u).", this, buffer, format, offset, size);
     }

     void RenderEncoderBase::APISetVertexBuffer(uint32_t slot,
                                                BufferBase* buffer,
                                                uint64_t offset,
                                                uint64_t size) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(GetDevice()->ValidateObject(buffer));
                     DAWN_TRY(ValidateCanUseAs(buffer, wgpu::BufferUsage::Vertex));

                     DAWN_INVALID_IF(slot >= kMaxVertexBuffers,
                                     "Vertex buffer slot (%u) is larger the maximum (%u)", slot,
                                     kMaxVertexBuffers - 1);

                     DAWN_INVALID_IF(offset % 4 != 0,
                                     "Vertex buffer offset (%u) is not a multiple of 4", offset);

                     uint64_t bufferSize = buffer->GetSize();
                     DAWN_INVALID_IF(offset > bufferSize,
                                     "Vertex buffer offset (%u) is larger than the size (%u) of %s.",
                                     offset, bufferSize, buffer);

                     uint64_t remainingSize = bufferSize - offset;

                     if (size == wgpu::kWholeSize) {
                         size = remainingSize;
                     } else {
                         DAWN_INVALID_IF(size > remainingSize,
                                         "Vertex buffer range (offset: %u, size: %u) doesn't fit in "
                                         "the size (%u) "
                                         "of %s.",
                                         offset, size, bufferSize, buffer);
                     }
                 } else {
                     if (size == wgpu::kWholeSize) {
                         DAWN_ASSERT(buffer->GetSize() >= offset);
                         size = buffer->GetSize() - offset;
                     }
                 }

                 mCommandBufferState.SetVertexBuffer(VertexBufferSlot(uint8_t(slot)), size);

                 SetVertexBufferCmd* cmd =
                     allocator->Allocate<SetVertexBufferCmd>(Command::SetVertexBuffer);
                 cmd->slot = VertexBufferSlot(static_cast<uint8_t>(slot));
                 cmd->buffer = buffer;
                 cmd->offset = offset;
                 cmd->size = size;

                 mUsageTracker.BufferUsedAs(buffer, wgpu::BufferUsage::Vertex);

                 return {};
             },
             "encoding %s.SetVertexBuffer(%u, %s, %u, %u).", this, slot, buffer, offset, size);
     }

     void RenderEncoderBase::APISetBindGroup(uint32_t groupIndexIn,
                                             BindGroupBase* group,
                                             uint32_t dynamicOffsetCount,
                                             const uint32_t* dynamicOffsets) {
         mEncodingContext->TryEncode(
             this,
             [&](CommandAllocator* allocator) -> MaybeError {
                 BindGroupIndex groupIndex(groupIndexIn);

                 if (IsValidationEnabled()) {
                     DAWN_TRY(ValidateSetBindGroup(groupIndex, group, dynamicOffsetCount,
                                                   dynamicOffsets));
                 }

                 RecordSetBindGroup(allocator, groupIndex, group, dynamicOffsetCount,
                                    dynamicOffsets);
                 mCommandBufferState.SetBindGroup(groupIndex, group, dynamicOffsetCount,
                                                  dynamicOffsets);
                 mUsageTracker.AddBindGroup(group);

                 return {};
             },
             // TODO(dawn:1190): For unknown reasons formatting this message fails if `group` is used
             // as a string value in the message. This despite the exact same code working as
             // intended in ComputePassEncoder::APISetBindGroup. Replacing with a static [BindGroup]
             // until the reason for the failure can be determined.
             "encoding %s.SetBindGroup(%u, [BindGroup], %u, ...).", this, groupIndexIn,
             dynamicOffsetCount);
     }

 }  // namespace dawn_native
	// 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/RenderEncoderBase.h"

	#include "common/Constants.h"
	#include "common/Log.h"
	#include "dawn_native/Buffer.h"
	#include "dawn_native/CommandEncoder.h"
	#include "dawn_native/CommandValidation.h"
	#include "dawn_native/Commands.h"
	#include "dawn_native/Device.h"
	#include "dawn_native/RenderPipeline.h"
	#include "dawn_native/ValidationUtils_autogen.h"

	#include <math.h>
	#include <cstring>

	namespace dawn_native {

	RenderEncoderBase::RenderEncoderBase(DeviceBase* device,
	const char* label,
	EncodingContext* encodingContext,
	Ref<AttachmentState> attachmentState,
	bool depthReadOnly,
	bool stencilReadOnly)
	: ProgrammableEncoder(device, label, encodingContext),
	mIndirectDrawMetadata(device->GetLimits()),
	mAttachmentState(std::move(attachmentState)),
	mDisableBaseVertex(device->IsToggleEnabled(Toggle::DisableBaseVertex)),
	mDisableBaseInstance(device->IsToggleEnabled(Toggle::DisableBaseInstance)) {
	mDepthReadOnly = depthReadOnly;
	mStencilReadOnly = stencilReadOnly;
	}

	RenderEncoderBase::RenderEncoderBase(DeviceBase* device,
	EncodingContext* encodingContext,
	ErrorTag errorTag)
	: ProgrammableEncoder(device, encodingContext, errorTag),
	mIndirectDrawMetadata(device->GetLimits()),
	mDisableBaseVertex(device->IsToggleEnabled(Toggle::DisableBaseVertex)),
	mDisableBaseInstance(device->IsToggleEnabled(Toggle::DisableBaseInstance)) {
	}

	void RenderEncoderBase::DestroyImpl() {
	// Remove reference to the attachment state so that we don't have lingering references to
	// it preventing it from being uncached in the device.
	mAttachmentState = nullptr;
	}

	const AttachmentState* RenderEncoderBase::GetAttachmentState() const {
	ASSERT(!IsError());
	ASSERT(mAttachmentState != nullptr);
	return mAttachmentState.Get();
	}

	bool RenderEncoderBase::IsDepthReadOnly() const {
	ASSERT(!IsError());
	return mDepthReadOnly;
	}

	bool RenderEncoderBase::IsStencilReadOnly() const {
	ASSERT(!IsError());
	return mStencilReadOnly;
	}

	Ref<AttachmentState> RenderEncoderBase::AcquireAttachmentState() {
	return std::move(mAttachmentState);
	}

	void RenderEncoderBase::APIDraw(uint32_t vertexCount,
	uint32_t instanceCount,
	uint32_t firstVertex,
	uint32_t firstInstance) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(mCommandBufferState.ValidateCanDraw());

	DAWN_INVALID_IF(mDisableBaseInstance && firstInstance != 0,
	"First instance (%u) must be zero.", firstInstance);

	DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForVertexBuffer(vertexCount,
	firstVertex));
	DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForInstanceBuffer(
	instanceCount, firstInstance));
	}

	DrawCmd* draw = allocator->Allocate<DrawCmd>(Command::Draw);
	draw->vertexCount = vertexCount;
	draw->instanceCount = instanceCount;
	draw->firstVertex = firstVertex;
	draw->firstInstance = firstInstance;

	return {};
	},
	"encoding %s.Draw(%u, %u, %u, %u).", this, vertexCount, instanceCount, firstVertex,
	firstInstance);
	}

	void RenderEncoderBase::APIDrawIndexed(uint32_t indexCount,
	uint32_t instanceCount,
	uint32_t firstIndex,
	int32_t baseVertex,
	uint32_t firstInstance) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(mCommandBufferState.ValidateCanDrawIndexed());

	DAWN_INVALID_IF(mDisableBaseInstance && firstInstance != 0,
	"First instance (%u) must be zero.", firstInstance);

	DAWN_INVALID_IF(mDisableBaseVertex && baseVertex != 0,
	"Base vertex (%u) must be zero.", baseVertex);

	DAWN_TRY(
	mCommandBufferState.ValidateIndexBufferInRange(indexCount, firstIndex));

	// Although we don't know actual vertex access range in CPU, we still call the
	// ValidateBufferInRangeForVertexBuffer in order to deal with those vertex step
	// mode vertex buffer with an array stride of zero.
	DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForVertexBuffer(0, 0));
	DAWN_TRY(mCommandBufferState.ValidateBufferInRangeForInstanceBuffer(
	instanceCount, firstInstance));
	}

	DrawIndexedCmd* draw = allocator->Allocate<DrawIndexedCmd>(Command::DrawIndexed);
	draw->indexCount = indexCount;
	draw->instanceCount = instanceCount;
	draw->firstIndex = firstIndex;
	draw->baseVertex = baseVertex;
	draw->firstInstance = firstInstance;

	return {};
	},
	"encoding %s.DrawIndexed(%u, %u, %u, %i, %u).", this, indexCount, instanceCount,
	firstIndex, baseVertex, firstInstance);
	}

	void RenderEncoderBase::APIDrawIndirect(BufferBase* indirectBuffer, uint64_t indirectOffset) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
	DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
	DAWN_TRY(mCommandBufferState.ValidateCanDraw());

	DAWN_INVALID_IF(indirectOffset % 4 != 0,
	"Indirect offset (%u) is not a multiple of 4.", indirectOffset);

	DAWN_INVALID_IF(
	indirectOffset >= indirectBuffer->GetSize() \|\|
	kDrawIndirectSize > indirectBuffer->GetSize() - indirectOffset,
	"Indirect offset (%u) is out of bounds of indirect buffer %s size (%u).",
	indirectOffset, indirectBuffer, indirectBuffer->GetSize());
	}

	DrawIndirectCmd* cmd = allocator->Allocate<DrawIndirectCmd>(Command::DrawIndirect);
	cmd->indirectBuffer = indirectBuffer;
	cmd->indirectOffset = indirectOffset;

	mUsageTracker.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);

	return {};
	},
	"encoding %s.DrawIndirect(%s, %u).", this, indirectBuffer, indirectOffset);
	}

	void RenderEncoderBase::APIDrawIndexedIndirect(BufferBase* indirectBuffer,
	uint64_t indirectOffset) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
	DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
	DAWN_TRY(mCommandBufferState.ValidateCanDrawIndexed());

	DAWN_INVALID_IF(indirectOffset % 4 != 0,
	"Indirect offset (%u) is not a multiple of 4.", indirectOffset);

	DAWN_INVALID_IF(
	(indirectOffset >= indirectBuffer->GetSize() \|\|
	kDrawIndexedIndirectSize > indirectBuffer->GetSize() - indirectOffset),
	"Indirect offset (%u) is out of bounds of indirect buffer %s size (%u).",
	indirectOffset, indirectBuffer, indirectBuffer->GetSize());
	}

	DrawIndexedIndirectCmd* cmd =
	allocator->Allocate<DrawIndexedIndirectCmd>(Command::DrawIndexedIndirect);
	if (IsValidationEnabled()) {
	// Later, EncodeIndirectDrawValidationCommands will allocate a scratch storage
	// buffer which will store the validated indirect data. The buffer and offset
	// will be updated to point to it.
	// \|EncodeIndirectDrawValidationCommands\| is called at the end of encoding the
	// render pass, while the \|cmd\| pointer is still valid.
	cmd->indirectBuffer = nullptr;

	mIndirectDrawMetadata.AddIndexedIndirectDraw(
	mCommandBufferState.GetIndexFormat(),
	mCommandBufferState.GetIndexBufferSize(), indirectBuffer, indirectOffset,
	cmd);
	} else {
	cmd->indirectBuffer = indirectBuffer;
	cmd->indirectOffset = indirectOffset;
	}

	// TODO(crbug.com/dawn/1166): Adding the indirectBuffer is needed for correct usage
	// validation, but it will unecessarily transition to indirectBuffer usage in the
	// backend.
	mUsageTracker.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);

	return {};
	},
	"encoding %s.DrawIndexedIndirect(%s, %u).", this, indirectBuffer, indirectOffset);
	}

	void RenderEncoderBase::APISetPipeline(RenderPipelineBase* pipeline) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(pipeline));

	// TODO(dawn:563): More detail about why the states are incompatible would be
	// nice.
	DAWN_INVALID_IF(
	pipeline->GetAttachmentState() != mAttachmentState.Get(),
	"Attachment state of %s is not compatible with the attachment state of %s",
	pipeline, this);

	DAWN_INVALID_IF(pipeline->WritesDepth() && mDepthReadOnly,
	"%s writes depth while %s's depthReadOnly is true", pipeline,
	this);

	DAWN_INVALID_IF(pipeline->WritesStencil() && mStencilReadOnly,
	"%s writes stencil while %s's stencilReadOnly is true",
	pipeline, this);
	}

	mCommandBufferState.SetRenderPipeline(pipeline);

	SetRenderPipelineCmd* cmd =
	allocator->Allocate<SetRenderPipelineCmd>(Command::SetRenderPipeline);
	cmd->pipeline = pipeline;

	return {};
	},
	"encoding %s.SetPipeline(%s).", this, pipeline);
	}

	void RenderEncoderBase::APISetIndexBuffer(BufferBase* buffer,
	wgpu::IndexFormat format,
	uint64_t offset,
	uint64_t size) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(buffer));
	DAWN_TRY(ValidateCanUseAs(buffer, wgpu::BufferUsage::Index));

	DAWN_TRY(ValidateIndexFormat(format));

	DAWN_INVALID_IF(format == wgpu::IndexFormat::Undefined,
	"Index format must be specified");

	DAWN_INVALID_IF(offset % uint64_t(IndexFormatSize(format)) != 0,
	"Index buffer offset (%u) is not a multiple of the size (%u) "
	"of %s.",
	offset, IndexFormatSize(format), format);

	uint64_t bufferSize = buffer->GetSize();
	DAWN_INVALID_IF(offset > bufferSize,
	"Index buffer offset (%u) is larger than the size (%u) of %s.",
	offset, bufferSize, buffer);

	uint64_t remainingSize = bufferSize - offset;

	if (size == wgpu::kWholeSize) {
	size = remainingSize;
	} else {
	DAWN_INVALID_IF(size > remainingSize,
	"Index buffer range (offset: %u, size: %u) doesn't fit in "
	"the size (%u) of "
	"%s.",
	offset, size, bufferSize, buffer);
	}
	} else {
	if (size == wgpu::kWholeSize) {
	DAWN_ASSERT(buffer->GetSize() >= offset);
	size = buffer->GetSize() - offset;
	}
	}

	mCommandBufferState.SetIndexBuffer(format, size);

	SetIndexBufferCmd* cmd =
	allocator->Allocate<SetIndexBufferCmd>(Command::SetIndexBuffer);
	cmd->buffer = buffer;
	cmd->format = format;
	cmd->offset = offset;
	cmd->size = size;

	mUsageTracker.BufferUsedAs(buffer, wgpu::BufferUsage::Index);

	return {};
	},
	"encoding %s.SetIndexBuffer(%s, %s, %u, %u).", this, buffer, format, offset, size);
	}

	void RenderEncoderBase::APISetVertexBuffer(uint32_t slot,
	BufferBase* buffer,
	uint64_t offset,
	uint64_t size) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(buffer));
	DAWN_TRY(ValidateCanUseAs(buffer, wgpu::BufferUsage::Vertex));

	DAWN_INVALID_IF(slot >= kMaxVertexBuffers,
	"Vertex buffer slot (%u) is larger the maximum (%u)", slot,
	kMaxVertexBuffers - 1);

	DAWN_INVALID_IF(offset % 4 != 0,
	"Vertex buffer offset (%u) is not a multiple of 4", offset);

	uint64_t bufferSize = buffer->GetSize();
	DAWN_INVALID_IF(offset > bufferSize,
	"Vertex buffer offset (%u) is larger than the size (%u) of %s.",
	offset, bufferSize, buffer);

	uint64_t remainingSize = bufferSize - offset;

	if (size == wgpu::kWholeSize) {
	size = remainingSize;
	} else {
	DAWN_INVALID_IF(size > remainingSize,
	"Vertex buffer range (offset: %u, size: %u) doesn't fit in "
	"the size (%u) "
	"of %s.",
	offset, size, bufferSize, buffer);
	}
	} else {
	if (size == wgpu::kWholeSize) {
	DAWN_ASSERT(buffer->GetSize() >= offset);
	size = buffer->GetSize() - offset;
	}
	}

	mCommandBufferState.SetVertexBuffer(VertexBufferSlot(uint8_t(slot)), size);

	SetVertexBufferCmd* cmd =
	allocator->Allocate<SetVertexBufferCmd>(Command::SetVertexBuffer);
	cmd->slot = VertexBufferSlot(static_cast<uint8_t>(slot));
	cmd->buffer = buffer;
	cmd->offset = offset;
	cmd->size = size;

	mUsageTracker.BufferUsedAs(buffer, wgpu::BufferUsage::Vertex);

	return {};
	},
	"encoding %s.SetVertexBuffer(%u, %s, %u, %u).", this, slot, buffer, offset, size);
	}

	void RenderEncoderBase::APISetBindGroup(uint32_t groupIndexIn,
	BindGroupBase* group,
	uint32_t dynamicOffsetCount,
	const uint32_t* dynamicOffsets) {
	mEncodingContext->TryEncode(
	this,
	[&](CommandAllocator* allocator) -> MaybeError {
	BindGroupIndex groupIndex(groupIndexIn);

	if (IsValidationEnabled()) {
	DAWN_TRY(ValidateSetBindGroup(groupIndex, group, dynamicOffsetCount,
	dynamicOffsets));
	}

	RecordSetBindGroup(allocator, groupIndex, group, dynamicOffsetCount,
	dynamicOffsets);
	mCommandBufferState.SetBindGroup(groupIndex, group, dynamicOffsetCount,
	dynamicOffsets);
	mUsageTracker.AddBindGroup(group);

	return {};
	},
	// TODO(dawn:1190): For unknown reasons formatting this message fails if `group` is used
	// as a string value in the message. This despite the exact same code working as
	// intended in ComputePassEncoder::APISetBindGroup. Replacing with a static [BindGroup]
	// until the reason for the failure can be determined.
	"encoding %s.SetBindGroup(%u, [BindGroup], %u, ...).", this, groupIndexIn,
	dynamicOffsetCount);
	}

	} // namespace dawn_native