// Copyright (c) 2019 Google LLC // // 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 "source/fuzz/transformation_replace_id_with_synonym.h" #include #include "source/fuzz/data_descriptor.h" #include "source/fuzz/fuzzer_util.h" #include "source/fuzz/id_use_descriptor.h" #include "source/opt/types.h" #include "source/util/make_unique.h" namespace spvtools { namespace fuzz { TransformationReplaceIdWithSynonym::TransformationReplaceIdWithSynonym( const spvtools::fuzz::protobufs::TransformationReplaceIdWithSynonym& message) : message_(message) {} TransformationReplaceIdWithSynonym::TransformationReplaceIdWithSynonym( protobufs::IdUseDescriptor id_use_descriptor, protobufs::DataDescriptor data_descriptor, uint32_t fresh_id_for_temporary) { assert((fresh_id_for_temporary == 0) == (data_descriptor.index().empty())); *message_.mutable_id_use_descriptor() = std::move(id_use_descriptor); *message_.mutable_data_descriptor() = std::move(data_descriptor); message_.set_fresh_id_for_temporary(fresh_id_for_temporary); } bool TransformationReplaceIdWithSynonym::IsApplicable( spvtools::opt::IRContext* context, const spvtools::fuzz::FactManager& fact_manager) const { auto id_of_interest = message_.id_use_descriptor().id_of_interest(); // Does the fact manager know about the synonym? if (fact_manager.GetIdsForWhichSynonymsAreKnown().count(id_of_interest) == 0) { return false; } auto available_synonyms = fact_manager.GetSynonymsForId(id_of_interest); if (std::find_if(available_synonyms.begin(), available_synonyms.end(), [this](protobufs::DataDescriptor dd) -> bool { return DataDescriptorEquals()(&dd, &message_.data_descriptor()); }) == available_synonyms.end()) { return false; } // Does the id use descriptor in the transformation identify an instruction? auto use_instruction = FindInstructionContainingUse(message_.id_use_descriptor(), context); if (!use_instruction) { return false; } // Is it legitimate to replace the use identified by the id use descriptor // with a synonym? if (!ReplacingUseWithSynonymIsOk( context, use_instruction, message_.id_use_descriptor().in_operand_index(), message_.data_descriptor())) { return false; } if (message_.fresh_id_for_temporary() == 0) { if (!message_.data_descriptor().index().empty()) { // If we have no id to use as a temporary variable, we should not have any // indices to extract from. return false; } } else { if (!fuzzerutil::IsFreshId(context, message_.fresh_id_for_temporary())) { // The id to be used as a temporary needs to be fresh. return false; } if (message_.data_descriptor().index_size() != 1) { // At present we support just a single index to allow extracting directly // from a composite. return false; } } return true; } void TransformationReplaceIdWithSynonym::Apply( spvtools::opt::IRContext* context, spvtools::fuzz::FactManager* /*unused*/) const { auto instruction_to_change = FindInstructionContainingUse(message_.id_use_descriptor(), context); // Ultimately we are going to replace the id use identified in the // transformation with |replacement_id|, which will either be the synonym's // id, or the id of a temporary used to extract the synonym from a composite. uint32_t replacement_id; if (message_.fresh_id_for_temporary()) { // The transformation having a temporary variable means that we need to // extract the synonym from a composite. uint32_t type_id_of_id_to_be_replaced = context->get_def_use_mgr() ->GetDef(message_.id_use_descriptor().id_of_interest()) ->type_id(); opt::analysis::Type* type_of_id_to_be_replaced = context->get_type_mgr()->GetType(type_id_of_id_to_be_replaced); opt::analysis::Type* type_of_composite = context->get_type_mgr()->GetType( context->get_def_use_mgr() ->GetDef(message_.data_descriptor().object()) ->type_id()); // Intuitively we want to make an OpCompositeExtract instruction, to get the // synonym out of the composite. But in the case of a vector, the synonym // might involve multiple vector indices; e.g. the y and z components of a // vec4 might be synonymous with a vec2, and in that case OpCompositeExtract // doesn't give us what we want; we need to use OpVectorShuffle instead. std::unique_ptr new_instruction; if (type_of_composite->AsVector() && type_of_composite->AsVector()->element_type() != type_of_id_to_be_replaced) { // We need to extract a vector from inside a vector, so we will need to // use OpVectorShuffle. assert(type_of_id_to_be_replaced->AsVector()); assert(type_of_id_to_be_replaced->AsVector()->element_type() == type_of_composite->AsVector()->element_type()); opt::Instruction::OperandList shuffle_operands = { {SPV_OPERAND_TYPE_ID, {message_.data_descriptor().object()}}, {SPV_OPERAND_TYPE_ID, {message_.data_descriptor().object()}}}; for (uint32_t i = 0; i < type_of_id_to_be_replaced->AsVector()->element_count(); i++) { shuffle_operands.push_back({SPV_OPERAND_TYPE_LITERAL_INTEGER, {message_.data_descriptor().index(0) + i}}); } new_instruction = MakeUnique( context, SpvOpVectorShuffle, type_id_of_id_to_be_replaced, message_.fresh_id_for_temporary(), shuffle_operands); } else { // We are either extracting from a non-vector, or extracting a scalar from // a vector, so we can use OpCompositeExtract. opt::Instruction::OperandList extract_operands = { {SPV_OPERAND_TYPE_ID, {message_.data_descriptor().object()}}, {SPV_OPERAND_TYPE_LITERAL_INTEGER, {message_.data_descriptor().index(0)}}}; new_instruction = MakeUnique( context, SpvOpCompositeExtract, type_id_of_id_to_be_replaced, message_.fresh_id_for_temporary(), extract_operands); } instruction_to_change->InsertBefore(std::move(new_instruction)); // The replacement id is the temporary variable we used to extract the // synonym from a composite. replacement_id = message_.fresh_id_for_temporary(); fuzzerutil::UpdateModuleIdBound(context, replacement_id); } else { // The replacement id is the synonym's id. replacement_id = message_.data_descriptor().object(); } instruction_to_change->SetInOperand( message_.id_use_descriptor().in_operand_index(), {replacement_id}); context->InvalidateAnalysesExceptFor(opt::IRContext::Analysis::kAnalysisNone); } protobufs::Transformation TransformationReplaceIdWithSynonym::ToMessage() const { protobufs::Transformation result; *result.mutable_replace_id_with_synonym() = message_; return result; } bool TransformationReplaceIdWithSynonym::ReplacingUseWithSynonymIsOk( opt::IRContext* context, opt::Instruction* use_instruction, uint32_t use_in_operand_index, const protobufs::DataDescriptor& synonym) { auto defining_instruction = context->get_def_use_mgr()->GetDef(synonym.object()); if (use_instruction == defining_instruction) { // If we have an instruction: // %a = OpCopyObject %t %b // then we know %a and %b are synonymous, but we do *not* want to turn // this into: // %a = OpCopyObject %t %a // We require this special case because an instruction dominates itself. return false; } if (use_instruction->opcode() == SpvOpAccessChain && use_in_operand_index > 0) { // This is an access chain index. If the (sub-)object being accessed by the // given index has struct type then we cannot replace the use with a // synonym, as the use needs to be an OpConstant. // Get the top-level composite type that is being accessed. auto object_being_accessed = context->get_def_use_mgr()->GetDef( use_instruction->GetSingleWordInOperand(0)); auto pointer_type = context->get_type_mgr()->GetType(object_being_accessed->type_id()); assert(pointer_type->AsPointer()); auto composite_type_being_accessed = pointer_type->AsPointer()->pointee_type(); // Now walk the access chain, tracking the type of each sub-object of the // composite that is traversed, until the index of interest is reached. for (uint32_t index_in_operand = 1; index_in_operand < use_in_operand_index; index_in_operand++) { // For vectors, matrices and arrays, getting the type of the sub-object is // trivial. For the struct case, the sub-object type is field-sensitive, // and depends on the constant index that is used. if (composite_type_being_accessed->AsVector()) { composite_type_being_accessed = composite_type_being_accessed->AsVector()->element_type(); } else if (composite_type_being_accessed->AsMatrix()) { composite_type_being_accessed = composite_type_being_accessed->AsMatrix()->element_type(); } else if (composite_type_being_accessed->AsArray()) { composite_type_being_accessed = composite_type_being_accessed->AsArray()->element_type(); } else { assert(composite_type_being_accessed->AsStruct()); auto constant_index_instruction = context->get_def_use_mgr()->GetDef( use_instruction->GetSingleWordInOperand(index_in_operand)); assert(constant_index_instruction->opcode() == SpvOpConstant); uint32_t member_index = constant_index_instruction->GetSingleWordInOperand(0); composite_type_being_accessed = composite_type_being_accessed->AsStruct() ->element_types()[member_index]; } } // We have found the composite type being accessed by the index we are // considering replacing. If it is a struct, then we cannot do the // replacement as struct indices must be constants. if (composite_type_being_accessed->AsStruct()) { return false; } } if (use_instruction->opcode() == SpvOpFunctionCall && use_in_operand_index > 0) { // This is a function call argument. It is not allowed to have pointer // type. // Get the definition of the function being called. auto function = context->get_def_use_mgr()->GetDef( use_instruction->GetSingleWordInOperand(0)); // From the function definition, get the function type. auto function_type = context->get_def_use_mgr()->GetDef(function->GetSingleWordInOperand(1)); // OpTypeFunction's 0-th input operand is the function return type, and the // function argument types follow. Because the arguments to OpFunctionCall // start from input operand 1, we can use |use_in_operand_index| to get the // type associated with this function argument. auto parameter_type = context->get_type_mgr()->GetType( function_type->GetSingleWordInOperand(use_in_operand_index)); if (parameter_type->AsPointer()) { return false; } } // We now need to check that replacing the use with the synonym will respect // dominance rules - i.e. the synonym needs to dominate the use. auto dominator_analysis = context->GetDominatorAnalysis( context->get_instr_block(use_instruction)->GetParent()); if (use_instruction->opcode() == SpvOpPhi) { // In the case where the use is an operand to OpPhi, it is actually the // *parent* block associated with the operand that must be dominated by the // synonym. auto parent_block = use_instruction->GetSingleWordInOperand(use_in_operand_index + 1); if (!dominator_analysis->Dominates( context->get_instr_block(defining_instruction)->id(), parent_block)) { return false; } } else if (!dominator_analysis->Dominates(defining_instruction, use_instruction)) { return false; } return true; } } // namespace fuzz } // namespace spvtools