// 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/Pipeline.h" #include "dawn_native/BindGroupLayout.h" #include "dawn_native/Device.h" #include "dawn_native/ObjectBase.h" #include "dawn_native/ObjectContentHasher.h" #include "dawn_native/PipelineLayout.h" #include "dawn_native/ShaderModule.h" namespace dawn_native { MaybeError ValidateProgrammableStage(DeviceBase* device, const ShaderModuleBase* module, const std::string& entryPoint, uint32_t constantCount, const ConstantEntry* constants, const PipelineLayoutBase* layout, SingleShaderStage stage) { DAWN_TRY(device->ValidateObject(module)); DAWN_INVALID_IF(!module->HasEntryPoint(entryPoint), "Entry point \"%s\" doesn't exist in the shader module %s.", entryPoint, module); const EntryPointMetadata& metadata = module->GetEntryPoint(entryPoint); DAWN_INVALID_IF(metadata.stage != stage, "The stage (%s) of the entry point \"%s\" isn't the expected one (%s).", metadata.stage, entryPoint, stage); if (layout != nullptr) { DAWN_TRY(ValidateCompatibilityWithPipelineLayout(device, metadata, layout)); } if (constantCount > 0u && device->IsToggleEnabled(Toggle::DisallowUnsafeAPIs)) { return DAWN_VALIDATION_ERROR( "Pipeline overridable constants are disallowed because they are partially " "implemented."); } // Validate if overridable constants exist in shader module // pipelineBase is not yet constructed at this moment so iterate constants from descriptor size_t numUninitializedConstants = metadata.uninitializedOverridableConstants.size(); // Keep an initialized constants sets to handle duplicate initialization cases // Only storing that of uninialized constants is needed std::unordered_set stageInitializedConstantIdentifiers; for (uint32_t i = 0; i < constantCount; i++) { DAWN_INVALID_IF(metadata.overridableConstants.count(constants[i].key) == 0, "Pipeline overridable constant \"%s\" not found in shader module %s.", constants[i].key, module); if (metadata.uninitializedOverridableConstants.count(constants[i].key) > 0 && stageInitializedConstantIdentifiers.count(constants[i].key) == 0) { numUninitializedConstants--; stageInitializedConstantIdentifiers.insert(constants[i].key); } } // Validate if any overridable constant is left uninitialized if (DAWN_UNLIKELY(numUninitializedConstants > 0)) { std::string uninitializedConstantsArray; bool isFirst = true; for (std::string identifier : metadata.uninitializedOverridableConstants) { if (stageInitializedConstantIdentifiers.count(identifier) > 0) { continue; } if (isFirst) { isFirst = false; } else { uninitializedConstantsArray.append(", "); } uninitializedConstantsArray.append(identifier); } return DAWN_FORMAT_VALIDATION_ERROR( "There are uninitialized pipeline overridable constants in shader module %s, their " "identifiers:[%s]", module, uninitializedConstantsArray); } return {}; } // PipelineBase PipelineBase::PipelineBase(DeviceBase* device, PipelineLayoutBase* layout, const char* label, std::vector stages) : ApiObjectBase(device, label), mLayout(layout) { ASSERT(!stages.empty()); for (const StageAndDescriptor& stage : stages) { // Extract argument for this stage. SingleShaderStage shaderStage = stage.shaderStage; ShaderModuleBase* module = stage.module; const char* entryPointName = stage.entryPoint.c_str(); const EntryPointMetadata& metadata = module->GetEntryPoint(entryPointName); ASSERT(metadata.stage == shaderStage); // Record them internally. bool isFirstStage = mStageMask == wgpu::ShaderStage::None; mStageMask |= StageBit(shaderStage); mStages[shaderStage] = {module, entryPointName, &metadata, std::vector()}; auto& constants = mStages[shaderStage].constants; for (uint32_t i = 0; i < stage.constantCount; i++) { constants.emplace_back(stage.constants[i].key, stage.constants[i].value); } // Compute the max() of all minBufferSizes across all stages. RequiredBufferSizes stageMinBufferSizes = ComputeRequiredBufferSizesForLayout(metadata, layout); if (isFirstStage) { mMinBufferSizes = std::move(stageMinBufferSizes); } else { for (BindGroupIndex group(0); group < mMinBufferSizes.size(); ++group) { ASSERT(stageMinBufferSizes[group].size() == mMinBufferSizes[group].size()); for (size_t i = 0; i < stageMinBufferSizes[group].size(); ++i) { mMinBufferSizes[group][i] = std::max(mMinBufferSizes[group][i], stageMinBufferSizes[group][i]); } } } } } PipelineBase::PipelineBase(DeviceBase* device) : ApiObjectBase(device, kLabelNotImplemented) { } PipelineBase::PipelineBase(DeviceBase* device, ObjectBase::ErrorTag tag) : ApiObjectBase(device, tag) { } PipelineBase::~PipelineBase() = default; PipelineLayoutBase* PipelineBase::GetLayout() { ASSERT(!IsError()); return mLayout.Get(); } const PipelineLayoutBase* PipelineBase::GetLayout() const { ASSERT(!IsError()); return mLayout.Get(); } const RequiredBufferSizes& PipelineBase::GetMinBufferSizes() const { ASSERT(!IsError()); return mMinBufferSizes; } const ProgrammableStage& PipelineBase::GetStage(SingleShaderStage stage) const { ASSERT(!IsError()); return mStages[stage]; } const PerStage& PipelineBase::GetAllStages() const { return mStages; } wgpu::ShaderStage PipelineBase::GetStageMask() const { return mStageMask; } MaybeError PipelineBase::ValidateGetBindGroupLayout(uint32_t groupIndex) { DAWN_TRY(GetDevice()->ValidateIsAlive()); DAWN_TRY(GetDevice()->ValidateObject(this)); DAWN_TRY(GetDevice()->ValidateObject(mLayout.Get())); DAWN_INVALID_IF( groupIndex >= kMaxBindGroups, "Bind group layout index (%u) exceeds the maximum number of bind groups (%u).", groupIndex, kMaxBindGroups); return {}; } ResultOrError> PipelineBase::GetBindGroupLayout( uint32_t groupIndexIn) { DAWN_TRY(ValidateGetBindGroupLayout(groupIndexIn)); BindGroupIndex groupIndex(groupIndexIn); if (!mLayout->GetBindGroupLayoutsMask()[groupIndex]) { return Ref(GetDevice()->GetEmptyBindGroupLayout()); } else { return Ref(mLayout->GetBindGroupLayout(groupIndex)); } } BindGroupLayoutBase* PipelineBase::APIGetBindGroupLayout(uint32_t groupIndexIn) { Ref result; if (GetDevice()->ConsumedError(GetBindGroupLayout(groupIndexIn), &result, "Validating GetBindGroupLayout (%u) on %s", groupIndexIn, this)) { return BindGroupLayoutBase::MakeError(GetDevice()); } return result.Detach(); } size_t PipelineBase::ComputeContentHash() { ObjectContentHasher recorder; recorder.Record(mLayout->GetContentHash()); recorder.Record(mStageMask); for (SingleShaderStage stage : IterateStages(mStageMask)) { recorder.Record(mStages[stage].module->GetContentHash()); recorder.Record(mStages[stage].entryPoint); } return recorder.GetContentHash(); } // static bool PipelineBase::EqualForCache(const PipelineBase* a, const PipelineBase* b) { // The layout is deduplicated so it can be compared by pointer. if (a->mLayout.Get() != b->mLayout.Get() || a->mStageMask != b->mStageMask) { return false; } for (SingleShaderStage stage : IterateStages(a->mStageMask)) { // The module is deduplicated so it can be compared by pointer. if (a->mStages[stage].module.Get() != b->mStages[stage].module.Get() || a->mStages[stage].entryPoint != b->mStages[stage].entryPoint) { return false; } } return true; } } // namespace dawn_native