// Copyright (c) 2017 Pierre Moreau // // 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 "spirv-tools/linker.hpp" #include #include #include #include #include #include #include #include "assembly_grammar.h" #include "diagnostic.h" #include "opt/build_module.h" #include "opt/compact_ids_pass.h" #include "opt/decoration_manager.h" #include "opt/ir_loader.h" #include "opt/make_unique.h" #include "opt/pass_manager.h" #include "opt/remove_duplicates_pass.h" #include "spirv-tools/libspirv.hpp" #include "spirv_target_env.h" namespace spvtools { using ir::Instruction; using ir::IRContext; using ir::Module; using ir::Operand; using opt::PassManager; using opt::RemoveDuplicatesPass; using opt::analysis::DecorationManager; using opt::analysis::DefUseManager; // Stores various information about an imported or exported symbol. struct LinkageSymbolInfo { SpvId id; // ID of the symbol SpvId type_id; // ID of the type of the symbol std::string name; // unique name defining the symbol and used for matching // imports and exports together std::vector parameter_ids; // ID of the parameters of the symbol, if // it is a function }; struct LinkageEntry { LinkageSymbolInfo imported_symbol; LinkageSymbolInfo exported_symbol; LinkageEntry(const LinkageSymbolInfo& import_info, const LinkageSymbolInfo& export_info) : imported_symbol(import_info), exported_symbol(export_info) {} }; using LinkageTable = std::vector; // Shifts the IDs used in each binary of |modules| so that they occupy a // disjoint range from the other binaries, and compute the new ID bound which // is returned in |max_id_bound|. // // Both |modules| and |max_id_bound| should not be null, and |modules| should // not be empty either. Furthermore |modules| should not contain any null // pointers. static spv_result_t ShiftIdsInModules(const MessageConsumer& consumer, std::vector* modules, uint32_t* max_id_bound); // Generates the header for the linked module and returns it in |header|. // // |header| should not be null, |modules| should not be empty and pointers // should be non-null. |max_id_bound| should be strictly greater than 0. // // TODO(pierremoreau): What to do when binaries use different versions of // SPIR-V? For now, use the max of all versions found in // the input modules. static spv_result_t GenerateHeader(const MessageConsumer& consumer, const std::vector& modules, uint32_t max_id_bound, ir::ModuleHeader* header); // Merge all the modules from |in_modules| into a single module owned by // |linked_context|. // // |linked_context| should not be null. static spv_result_t MergeModules(const MessageConsumer& consumer, const std::vector& in_modules, const AssemblyGrammar& grammar, IRContext* linked_context); // Compute all pairs of import and export and return it in |linkings_to_do|. // // |linkings_to_do should not be null. Built-in symbols will be ignored. // // TODO(pierremoreau): Linkage attributes applied by a group decoration are // currently not handled. (You could have a group being // applied to a single ID.) // TODO(pierremoreau): What should be the proper behaviour with built-in // symbols? static spv_result_t GetImportExportPairs( const MessageConsumer& consumer, const ir::IRContext& linked_context, const DefUseManager& def_use_manager, const DecorationManager& decoration_manager, bool allow_partial_linkage, LinkageTable* linkings_to_do); // Checks that for each pair of import and export, the import and export have // the same type as well as the same decorations. // // TODO(pierremoreau): Decorations on functions parameters are currently not // checked. static spv_result_t CheckImportExportCompatibility( const MessageConsumer& consumer, const LinkageTable& linkings_to_do, ir::IRContext* context); // Remove linkage specific instructions, such as prototypes of imported // functions, declarations of imported variables, import (and export if // necessary) linkage attribtes. // // |linked_context| and |decoration_manager| should not be null, and the // 'RemoveDuplicatePass' should be run first. // // TODO(pierremoreau): Linkage attributes applied by a group decoration are // currently not handled. (You could have a group being // applied to a single ID.) // TODO(pierremoreau): Run a pass for removing dead instructions, for example // OpName for prototypes of imported funcions. static spv_result_t RemoveLinkageSpecificInstructions( const MessageConsumer& consumer, const LinkerOptions& options, const LinkageTable& linkings_to_do, DecorationManager* decoration_manager, ir::IRContext* linked_context); // Verify that the unique ids of each instruction in |linked_context| (i.e. the // merged module) are truly unique. Does not check the validity of other ids static spv_result_t VerifyIds(const MessageConsumer& consumer, ir::IRContext* linked_context); spv_result_t Link(const Context& context, const std::vector>& binaries, std::vector* linked_binary, const LinkerOptions& options) { std::vector binary_ptrs; binary_ptrs.reserve(binaries.size()); std::vector binary_sizes; binary_sizes.reserve(binaries.size()); for (const auto& binary : binaries) { binary_ptrs.push_back(binary.data()); binary_sizes.push_back(binary.size()); } return Link(context, binary_ptrs.data(), binary_sizes.data(), binaries.size(), linked_binary, options); } spv_result_t Link(const Context& context, const uint32_t* const* binaries, const size_t* binary_sizes, size_t num_binaries, std::vector* linked_binary, const LinkerOptions& options) { spv_position_t position = {}; const spv_context& c_context = context.CContext(); const MessageConsumer& consumer = c_context->consumer; linked_binary->clear(); if (num_binaries == 0u) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "No modules were given."; std::vector> ir_contexts; std::vector modules; modules.reserve(num_binaries); for (size_t i = 0u; i < num_binaries; ++i) { const uint32_t schema = binaries[i][4u]; if (schema != 0u) { position.index = 4u; return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Schema is non-zero for module " << i << "."; } std::unique_ptr ir_context = BuildModule( c_context->target_env, consumer, binaries[i], binary_sizes[i]); if (ir_context == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Failed to build a module out of " << ir_contexts.size() << "."; modules.push_back(ir_context->module()); ir_contexts.push_back(std::move(ir_context)); } // Phase 1: Shift the IDs used in each binary so that they occupy a disjoint // range from the other binaries, and compute the new ID bound. uint32_t max_id_bound = 0u; spv_result_t res = ShiftIdsInModules(consumer, &modules, &max_id_bound); if (res != SPV_SUCCESS) return res; // Phase 2: Generate the header ir::ModuleHeader header; res = GenerateHeader(consumer, modules, max_id_bound, &header); if (res != SPV_SUCCESS) return res; IRContext linked_context(c_context->target_env, consumer); linked_context.module()->SetHeader(header); // Phase 3: Merge all the binaries into a single one. AssemblyGrammar grammar(c_context); res = MergeModules(consumer, modules, grammar, &linked_context); if (res != SPV_SUCCESS) return res; if (options.GetVerifyIds()) { res = VerifyIds(consumer, &linked_context); if (res != SPV_SUCCESS) return res; } // Phase 4: Find the import/export pairs LinkageTable linkings_to_do; res = GetImportExportPairs(consumer, linked_context, *linked_context.get_def_use_mgr(), *linked_context.get_decoration_mgr(), options.GetAllowPartialLinkage(), &linkings_to_do); if (res != SPV_SUCCESS) return res; // Phase 5: Ensure the import and export have the same types and decorations. res = CheckImportExportCompatibility(consumer, linkings_to_do, &linked_context); if (res != SPV_SUCCESS) return res; // Phase 6: Remove duplicates PassManager manager; manager.SetMessageConsumer(consumer); manager.AddPass(); opt::Pass::Status pass_res = manager.Run(&linked_context); if (pass_res == opt::Pass::Status::Failure) return SPV_ERROR_INVALID_DATA; // Phase 7: Rematch import variables/functions to export variables/functions for (const auto& linking_entry : linkings_to_do) linked_context.ReplaceAllUsesWith(linking_entry.imported_symbol.id, linking_entry.exported_symbol.id); // Phase 8: Remove linkage specific instructions, such as import/export // attributes, linkage capability, etc. if applicable res = RemoveLinkageSpecificInstructions(consumer, options, linkings_to_do, linked_context.get_decoration_mgr(), &linked_context); if (res != SPV_SUCCESS) return res; // Phase 9: Compact the IDs used in the module manager.AddPass(); pass_res = manager.Run(&linked_context); if (pass_res == opt::Pass::Status::Failure) return SPV_ERROR_INVALID_DATA; // Phase 10: Output the module linked_context.module()->ToBinary(linked_binary, true); return SPV_SUCCESS; } static spv_result_t ShiftIdsInModules(const MessageConsumer& consumer, std::vector* modules, uint32_t* max_id_bound) { spv_position_t position = {}; if (modules == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|modules| of ShiftIdsInModules should not be null."; if (modules->empty()) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|modules| of ShiftIdsInModules should not be empty."; if (max_id_bound == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|max_id_bound| of ShiftIdsInModules should not be null."; uint32_t id_bound = modules->front()->IdBound() - 1u; for (auto module_iter = modules->begin() + 1; module_iter != modules->end(); ++module_iter) { Module* module = *module_iter; module->ForEachInst([&id_bound](Instruction* insn) { insn->ForEachId([&id_bound](uint32_t* id) { *id += id_bound; }); }); id_bound += module->IdBound() - 1u; if (id_bound > 0x3FFFFF) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_ID) << "The limit of IDs, 4194303, was exceeded:" << " " << id_bound << " is the current ID bound."; // Invalidate the DefUseManager module->context()->InvalidateAnalyses(ir::IRContext::kAnalysisDefUse); } ++id_bound; if (id_bound > 0x3FFFFF) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_ID) << "The limit of IDs, 4194303, was exceeded:" << " " << id_bound << " is the current ID bound."; *max_id_bound = id_bound; return SPV_SUCCESS; } static spv_result_t GenerateHeader(const MessageConsumer& consumer, const std::vector& modules, uint32_t max_id_bound, ir::ModuleHeader* header) { spv_position_t position = {}; if (modules.empty()) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|modules| of GenerateHeader should not be empty."; if (max_id_bound == 0u) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|max_id_bound| of GenerateHeader should not be null."; uint32_t version = 0u; for (const auto& module : modules) version = std::max(version, module->version()); header->magic_number = SpvMagicNumber; header->version = version; header->generator = 17u; header->bound = max_id_bound; header->reserved = 0u; return SPV_SUCCESS; } static spv_result_t MergeModules(const MessageConsumer& consumer, const std::vector& input_modules, const AssemblyGrammar& grammar, IRContext* linked_context) { spv_position_t position = {}; if (linked_context == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|linked_module| of MergeModules should not be null."; Module* linked_module = linked_context->module(); if (input_modules.empty()) return SPV_SUCCESS; for (const auto& module : input_modules) for (const auto& inst : module->capabilities()) linked_module->AddCapability( std::unique_ptr(inst.Clone(linked_context))); for (const auto& module : input_modules) for (const auto& inst : module->extensions()) linked_module->AddExtension( std::unique_ptr(inst.Clone(linked_context))); for (const auto& module : input_modules) for (const auto& inst : module->ext_inst_imports()) linked_module->AddExtInstImport( std::unique_ptr(inst.Clone(linked_context))); do { const Instruction* memory_model_inst = input_modules[0]->GetMemoryModel(); if (memory_model_inst == nullptr) break; uint32_t addressing_model = memory_model_inst->GetSingleWordOperand(0u); uint32_t memory_model = memory_model_inst->GetSingleWordOperand(1u); for (const auto& module : input_modules) { memory_model_inst = module->GetMemoryModel(); if (memory_model_inst == nullptr) continue; if (addressing_model != memory_model_inst->GetSingleWordOperand(0u)) { spv_operand_desc initial_desc = nullptr, current_desc = nullptr; grammar.lookupOperand(SPV_OPERAND_TYPE_ADDRESSING_MODEL, addressing_model, &initial_desc); grammar.lookupOperand(SPV_OPERAND_TYPE_ADDRESSING_MODEL, memory_model_inst->GetSingleWordOperand(0u), ¤t_desc); return DiagnosticStream(position, consumer, "", SPV_ERROR_INTERNAL) << "Conflicting addressing models: " << initial_desc->name << " vs " << current_desc->name << "."; } if (memory_model != memory_model_inst->GetSingleWordOperand(1u)) { spv_operand_desc initial_desc = nullptr, current_desc = nullptr; grammar.lookupOperand(SPV_OPERAND_TYPE_MEMORY_MODEL, memory_model, &initial_desc); grammar.lookupOperand(SPV_OPERAND_TYPE_MEMORY_MODEL, memory_model_inst->GetSingleWordOperand(1u), ¤t_desc); return DiagnosticStream(position, consumer, "", SPV_ERROR_INTERNAL) << "Conflicting memory models: " << initial_desc->name << " vs " << current_desc->name << "."; } } if (memory_model_inst != nullptr) linked_module->SetMemoryModel(std::unique_ptr( memory_model_inst->Clone(linked_context))); } while (false); std::vector> entry_points; for (const auto& module : input_modules) for (const auto& inst : module->entry_points()) { const uint32_t model = inst.GetSingleWordInOperand(0); const char* const name = reinterpret_cast(inst.GetInOperand(2).words.data()); const auto i = std::find_if( entry_points.begin(), entry_points.end(), [model, name](const std::pair& v) { return v.first == model && strcmp(name, v.second) == 0; }); if (i != entry_points.end()) { spv_operand_desc desc = nullptr; grammar.lookupOperand(SPV_OPERAND_TYPE_EXECUTION_MODEL, model, &desc); return DiagnosticStream(position, consumer, "", SPV_ERROR_INTERNAL) << "The entry point \"" << name << "\", with execution model " << desc->name << ", was already defined."; } linked_module->AddEntryPoint( std::unique_ptr(inst.Clone(linked_context))); entry_points.emplace_back(model, name); } for (const auto& module : input_modules) for (const auto& inst : module->execution_modes()) linked_module->AddExecutionMode( std::unique_ptr(inst.Clone(linked_context))); for (const auto& module : input_modules) for (const auto& inst : module->debugs1()) linked_module->AddDebug1Inst( std::unique_ptr(inst.Clone(linked_context))); for (const auto& module : input_modules) for (const auto& inst : module->debugs2()) linked_module->AddDebug2Inst( std::unique_ptr(inst.Clone(linked_context))); for (const auto& module : input_modules) for (const auto& inst : module->debugs3()) linked_module->AddDebug3Inst( std::unique_ptr(inst.Clone(linked_context))); // If the generated module uses SPIR-V 1.1 or higher, add an // OpModuleProcessed instruction about the linking step. if (linked_module->version() >= 0x10100) { const std::string processed_string("Linked by SPIR-V Tools Linker"); const auto num_chars = processed_string.size(); // Compute num words, accommodate the terminating null character. const auto num_words = (num_chars + 1 + 3) / 4; std::vector processed_words(num_words, 0u); std::memcpy(processed_words.data(), processed_string.data(), num_chars); linked_module->AddDebug3Inst(std::unique_ptr( new Instruction(linked_context, SpvOpModuleProcessed, 0u, 0u, {{SPV_OPERAND_TYPE_LITERAL_STRING, processed_words}}))); } for (const auto& module : input_modules) for (const auto& inst : module->annotations()) linked_module->AddAnnotationInst( std::unique_ptr(inst.Clone(linked_context))); // TODO(pierremoreau): Since the modules have not been validate, should we // expect SpvStorageClassFunction variables outside // functions? uint32_t num_global_values = 0u; for (const auto& module : input_modules) { for (const auto& inst : module->types_values()) { linked_module->AddType( std::unique_ptr(inst.Clone(linked_context))); num_global_values += inst.opcode() == SpvOpVariable; } } if (num_global_values > 0xFFFF) return DiagnosticStream(position, consumer, "", SPV_ERROR_INTERNAL) << "The limit of global values, 65535, was exceeded;" << " " << num_global_values << " global values were found."; // Process functions and their basic blocks for (const auto& module : input_modules) { for (const auto& func : *module) { std::unique_ptr cloned_func(func.Clone(linked_context)); cloned_func->SetParent(linked_module); linked_module->AddFunction(std::move(cloned_func)); } } return SPV_SUCCESS; } static spv_result_t GetImportExportPairs( const MessageConsumer& consumer, const ir::IRContext& linked_context, const DefUseManager& def_use_manager, const DecorationManager& decoration_manager, bool allow_partial_linkage, LinkageTable* linkings_to_do) { spv_position_t position = {}; if (linkings_to_do == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|linkings_to_do| of GetImportExportPairs should not be empty."; std::vector imports; std::unordered_map> exports; // Figure out the imports and exports for (const auto& decoration : linked_context.annotations()) { if (decoration.opcode() != SpvOpDecorate || decoration.GetSingleWordInOperand(1u) != SpvDecorationLinkageAttributes) continue; const SpvId id = decoration.GetSingleWordInOperand(0u); // Ignore if the targeted symbol is a built-in bool is_built_in = false; for (const auto& id_decoration : decoration_manager.GetDecorationsFor(id, false)) { if (id_decoration->GetSingleWordInOperand(1u) == SpvDecorationBuiltIn) { is_built_in = true; break; } } if (is_built_in) { continue; } const uint32_t type = decoration.GetSingleWordInOperand(3u); LinkageSymbolInfo symbol_info; symbol_info.name = reinterpret_cast(decoration.GetInOperand(2u).words.data()); symbol_info.id = id; symbol_info.type_id = 0u; // Retrieve the type of the current symbol. This information will be used // when checking that the imported and exported symbols have the same // types. const Instruction* def_inst = def_use_manager.GetDef(id); if (def_inst == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "ID " << id << " is never defined:\n"; if (def_inst->opcode() == SpvOpVariable) { symbol_info.type_id = def_inst->type_id(); } else if (def_inst->opcode() == SpvOpFunction) { symbol_info.type_id = def_inst->GetSingleWordInOperand(1u); // range-based for loop calls begin()/end(), but never cbegin()/cend(), // which will not work here. for (auto func_iter = linked_context.module()->cbegin(); func_iter != linked_context.module()->cend(); ++func_iter) { if (func_iter->result_id() != id) continue; func_iter->ForEachParam([&symbol_info](const Instruction* inst) { symbol_info.parameter_ids.push_back(inst->result_id()); }); } } else { return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Only global variables and functions can be decorated using" << " LinkageAttributes; " << id << " is neither of them.\n"; } if (type == SpvLinkageTypeImport) imports.push_back(symbol_info); else if (type == SpvLinkageTypeExport) exports[symbol_info.name].push_back(symbol_info); } // Find the import/export pairs for (const auto& import : imports) { std::vector possible_exports; const auto& exp = exports.find(import.name); if (exp != exports.end()) possible_exports = exp->second; if (possible_exports.empty() && !allow_partial_linkage) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Unresolved external reference to \"" << import.name << "\"."; else if (possible_exports.size() > 1u) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Too many external references, " << possible_exports.size() << ", were found for \"" << import.name << "\"."; if (!possible_exports.empty()) linkings_to_do->emplace_back(import, possible_exports.front()); } return SPV_SUCCESS; } static spv_result_t CheckImportExportCompatibility( const MessageConsumer& consumer, const LinkageTable& linkings_to_do, ir::IRContext* context) { spv_position_t position = {}; // Ensure th import and export types are the same. const DefUseManager& def_use_manager = *context->get_def_use_mgr(); const DecorationManager& decoration_manager = *context->get_decoration_mgr(); for (const auto& linking_entry : linkings_to_do) { if (!RemoveDuplicatesPass::AreTypesEqual( *def_use_manager.GetDef(linking_entry.imported_symbol.type_id), *def_use_manager.GetDef(linking_entry.exported_symbol.type_id), context)) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Type mismatch on symbol \"" << linking_entry.imported_symbol.name << "\" between imported variable/function %" << linking_entry.imported_symbol.id << " and exported variable/function %" << linking_entry.exported_symbol.id << "."; } // Ensure the import and export decorations are similar for (const auto& linking_entry : linkings_to_do) { if (!decoration_manager.HaveTheSameDecorations( linking_entry.imported_symbol.id, linking_entry.exported_symbol.id)) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_BINARY) << "Decorations mismatch on symbol \"" << linking_entry.imported_symbol.name << "\" between imported variable/function %" << linking_entry.imported_symbol.id << " and exported variable/function %" << linking_entry.exported_symbol.id << "."; // TODO(pierremoreau): Decorations on function parameters should probably // match, except for FuncParamAttr if I understand the // spec correctly. // TODO(pierremoreau): Decorations on the function return type should // match, except for FuncParamAttr. } return SPV_SUCCESS; } static spv_result_t RemoveLinkageSpecificInstructions( const MessageConsumer& consumer, const LinkerOptions& options, const LinkageTable& linkings_to_do, DecorationManager* decoration_manager, ir::IRContext* linked_context) { spv_position_t position = {}; if (decoration_manager == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|decoration_manager| of RemoveLinkageSpecificInstructions " "should not be empty."; if (linked_context == nullptr) return DiagnosticStream(position, consumer, "", SPV_ERROR_INVALID_DATA) << "|linked_module| of RemoveLinkageSpecificInstructions should not " "be empty."; // TODO(pierremoreau): Remove FuncParamAttr decorations of imported // functions' return type. // Remove FuncParamAttr decorations of imported functions' parameters. // From the SPIR-V specification, Sec. 2.13: // When resolving imported functions, the Function Control and all Function // Parameter Attributes are taken from the function definition, and not // from the function declaration. for (const auto& linking_entry : linkings_to_do) { for (const auto parameter_id : linking_entry.imported_symbol.parameter_ids) { decoration_manager->RemoveDecorationsFrom( parameter_id, [](const Instruction& inst) { return (inst.opcode() == SpvOpDecorate || inst.opcode() == SpvOpMemberDecorate) && inst.GetSingleWordInOperand(1u) == SpvDecorationFuncParamAttr; }); } } // Remove prototypes of imported functions for (const auto& linking_entry : linkings_to_do) { for (auto func_iter = linked_context->module()->begin(); func_iter != linked_context->module()->end();) { if (func_iter->result_id() == linking_entry.imported_symbol.id) func_iter = func_iter.Erase(); else ++func_iter; } } // Remove declarations of imported variables for (const auto& linking_entry : linkings_to_do) { auto next = linked_context->types_values_begin(); for (auto inst = next; inst != linked_context->types_values_end(); inst = next) { ++next; if (inst->result_id() == linking_entry.imported_symbol.id) { linked_context->KillInst(&*inst); } } } // If partial linkage is allowed, we need an efficient way to check whether // an imported ID had a corresponding export symbol. As uses of the imported // symbol have already been replaced by the exported symbol, use the exported // symbol ID. // TODO(pierremoreau): This will not work if the decoration is applied // through a group, but the linker does not support that // either. std::unordered_set imports; if (options.GetAllowPartialLinkage()) { imports.reserve(linkings_to_do.size()); for (const auto& linking_entry : linkings_to_do) imports.emplace(linking_entry.exported_symbol.id); } // Remove import linkage attributes auto next = linked_context->annotation_begin(); for (auto inst = next; inst != linked_context->annotation_end(); inst = next) { ++next; // If this is an import annotation: // * if we do not allow partial linkage, remove all import annotations; // * otherwise, remove the annotation only if there was a corresponding // export. if (inst->opcode() == SpvOpDecorate && inst->GetSingleWordOperand(1u) == SpvDecorationLinkageAttributes && inst->GetSingleWordOperand(3u) == SpvLinkageTypeImport && (!options.GetAllowPartialLinkage() || imports.find(inst->GetSingleWordOperand(0u)) != imports.end())) { linked_context->KillInst(&*inst); } } // Remove export linkage attributes if making an executable if (!options.GetCreateLibrary()) { next = linked_context->annotation_begin(); for (auto inst = next; inst != linked_context->annotation_end(); inst = next) { ++next; if (inst->opcode() == SpvOpDecorate && inst->GetSingleWordOperand(1u) == SpvDecorationLinkageAttributes && inst->GetSingleWordOperand(3u) == SpvLinkageTypeExport) { linked_context->KillInst(&*inst); } } } // Remove Linkage capability if making an executable and partial linkage is // not allowed if (!options.GetCreateLibrary() && !options.GetAllowPartialLinkage()) { for (auto& inst : linked_context->capabilities()) if (inst.GetSingleWordInOperand(0u) == SpvCapabilityLinkage) { linked_context->KillInst(&inst); // The RemoveDuplicatesPass did remove duplicated capabilities, so we // now there aren’t more SpvCapabilityLinkage further down. break; } } return SPV_SUCCESS; } spv_result_t VerifyIds(const MessageConsumer& consumer, ir::IRContext* linked_context) { std::unordered_set ids; bool ok = true; linked_context->module()->ForEachInst( [&ids, &ok](const ir::Instruction* inst) { ok &= ids.insert(inst->unique_id()).second; }); if (!ok) { consumer(SPV_MSG_INTERNAL_ERROR, "", {}, "Non-unique id in merged module"); return SPV_ERROR_INVALID_ID; } return SPV_SUCCESS; } } // namespace spvtools