//===---------- ScanningLoaders.cpp - Compute module dependencies ---------===// // // This source file is part of the Swift.org open source project // // Copyright (c) 2023 Apple Inc. and the Swift project authors // Licensed under Apache License v2.0 with Runtime Library Exception // // See https://swift.org/LICENSE.txt for license information // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors // //===----------------------------------------------------------------------===// #include "swift/AST/ASTContext.h" #include "swift/AST/DiagnosticEngine.h" #include "swift/AST/DiagnosticSuppression.h" #include "swift/AST/DiagnosticsFrontend.h" #include "swift/AST/DiagnosticsSema.h" #include "swift/AST/ModuleDependencies.h" #include "swift/AST/ModuleLoader.h" #include "swift/AST/SourceFile.h" #include "swift/AST/TypeCheckRequests.h" #include "swift/Basic/FileTypes.h" #include "swift/Basic/PrettyStackTrace.h" #include "swift/Frontend/ModuleInterfaceLoader.h" #include "swift/Serialization/ScanningLoaders.h" #include "swift/Serialization/SerializedModuleLoader.h" #include "swift/Subsystems.h" #include "llvm/ADT/IntrusiveRefCntPtr.h" #include "llvm/ADT/SetOperations.h" #include "llvm/CAS/CachingOnDiskFileSystem.h" #include "llvm/Support/Error.h" #include "llvm/Support/PrefixMapper.h" #include "llvm/Support/Threading.h" #include "llvm/Support/VirtualFileSystem.h" #include using namespace swift; std::error_code SwiftModuleScanner::findModuleFilesInDirectory( ImportPath::Element ModuleID, const SerializedModuleBaseName &BaseName, SmallVectorImpl *ModuleInterfacePath, SmallVectorImpl *ModuleInterfaceSourcePath, std::unique_ptr *ModuleBuffer, std::unique_ptr *ModuleDocBuffer, std::unique_ptr *ModuleSourceInfoBuffer, bool skipBuildingInterface, bool IsFramework, bool isTestableDependencyLookup) { using namespace llvm::sys; auto &fs = *Ctx.SourceMgr.getFileSystem(); auto ModPath = BaseName.getName(file_types::TY_SwiftModuleFile); auto InPath = BaseName.findInterfacePath(fs, Ctx); if (LoadMode == ModuleLoadingMode::OnlySerialized || !InPath) { if (fs.exists(ModPath)) { // The module file will be loaded directly. auto dependencies = scanModuleFile(ModPath, IsFramework); if (dependencies) { this->dependencies = std::move(dependencies.get()); return std::error_code(); } return dependencies.getError(); } return std::make_error_code(std::errc::no_such_file_or_directory); } assert(InPath); auto dependencies = scanInterfaceFile(*InPath, IsFramework); if (dependencies) { this->dependencies = std::move(dependencies.get()); return std::error_code(); } return dependencies.getError(); } bool PlaceholderSwiftModuleScanner::findModule( ImportPath::Element moduleID, SmallVectorImpl *moduleInterfacePath, SmallVectorImpl *moduleInterfaceSourcePath, std::unique_ptr *moduleBuffer, std::unique_ptr *moduleDocBuffer, std::unique_ptr *moduleSourceInfoBuffer, bool skipBuildingInterface, bool isTestableDependencyLookup, bool &isFramework, bool &isSystemModule) { StringRef moduleName = Ctx.getRealModuleName(moduleID.Item).str(); auto it = PlaceholderDependencyModuleMap.find(moduleName); if (it == PlaceholderDependencyModuleMap.end()) { return false; } auto &moduleInfo = it->getValue(); auto dependencies = ModuleDependencyInfo::forPlaceholderSwiftModuleStub( moduleInfo.modulePath, moduleInfo.moduleDocPath.has_value() ? moduleInfo.moduleDocPath.value() : "", moduleInfo.moduleSourceInfoPath.has_value() ? moduleInfo.moduleSourceInfoPath.value() : ""); this->dependencies = std::move(dependencies); return true; } void PlaceholderSwiftModuleScanner::parsePlaceholderModuleMap( StringRef fileName) { ExplicitModuleMapParser parser(Allocator); llvm::StringMap ClangDependencyModuleMap; llvm::ErrorOr> fileBufOrErr = llvm::MemoryBuffer::getFile(fileName); if (!fileBufOrErr) { Ctx.Diags.diagnose(SourceLoc(), diag::explicit_swift_module_map_missing, fileName); return; } auto result = parser.parseSwiftExplicitModuleMap( (*fileBufOrErr)->getMemBufferRef(), PlaceholderDependencyModuleMap, ClangDependencyModuleMap); if (result == std::errc::invalid_argument) { Ctx.Diags.diagnose(SourceLoc(), diag::placeholder_dependency_module_map_corrupted, fileName); } else if (result == std::errc::no_such_file_or_directory) { Ctx.Diags.diagnose( SourceLoc(), diag::placeholder_dependency_module_map_missing, fileName); } } static std::vector getCompiledCandidates(ASTContext &ctx, StringRef moduleName, StringRef interfacePath) { return ctx.getModuleInterfaceChecker() ->getCompiledModuleCandidatesForInterface(moduleName.str(), interfacePath); } llvm::ErrorOr SwiftModuleScanner::scanInterfaceFile(Twine moduleInterfacePath, bool isFramework) { // Create a module filename. // FIXME: Query the module interface loader to determine an appropriate // name for the module, which includes an appropriate hash. auto newExt = file_types::getExtension(file_types::TY_SwiftModuleFile); auto realModuleName = Ctx.getRealModuleName(moduleName); StringRef sdkPath = Ctx.SearchPathOpts.getSDKPath(); llvm::SmallString<32> modulePath = realModuleName.str(); llvm::sys::path::replace_extension(modulePath, newExt); std::optional Result; std::error_code code = astDelegate.runInSubContext( realModuleName.str(), moduleInterfacePath.str(), sdkPath, StringRef(), SourceLoc(), [&](ASTContext &Ctx, ModuleDecl *mainMod, ArrayRef BaseArgs, ArrayRef PCMArgs, StringRef Hash) { assert(mainMod); std::string InPath = moduleInterfacePath.str(); auto compiledCandidates = getCompiledCandidates(Ctx, realModuleName.str(), InPath); std::vector Args(BaseArgs.begin(), BaseArgs.end()); // Add explicit Swift dependency compilation flags Args.push_back("-explicit-interface-module-build"); Args.push_back("-disable-implicit-swift-modules"); // Handle clang arguments. For caching build, all arguments are passed // with `-direct-clang-cc1-module-build`. if (Ctx.ClangImporterOpts.ClangImporterDirectCC1Scan) { Args.push_back("-direct-clang-cc1-module-build"); auto *importer = static_cast(Ctx.getClangModuleLoader()); for (auto &Arg : importer->getSwiftExplicitModuleDirectCC1Args()) { Args.push_back("-Xcc"); Args.push_back(Arg); } } else { Args.push_back("-Xcc"); Args.push_back("-fno-implicit-modules"); Args.push_back("-Xcc"); Args.push_back("-fno-implicit-module-maps"); } for (const auto &candidate : compiledCandidates) { Args.push_back("-candidate-module-file"); Args.push_back(candidate); } // Compute the output path and add it to the command line SmallString<128> outputPathBase(moduleOutputPath); llvm::sys::path::append( outputPathBase, moduleName.str() + "-" + Hash + "." + file_types::getExtension(file_types::TY_SwiftModuleFile)); Args.push_back("-o"); Args.push_back(outputPathBase.str().str()); // Open the interface file. auto &fs = *Ctx.SourceMgr.getFileSystem(); auto interfaceBuf = fs.getBufferForFile(moduleInterfacePath); if (!interfaceBuf) { return interfaceBuf.getError(); } // Create a source file. unsigned bufferID = Ctx.SourceMgr.addNewSourceBuffer(std::move(interfaceBuf.get())); auto moduleDecl = ModuleDecl::create(realModuleName, Ctx); SourceFile::ParsingOptions parsingOpts; auto sourceFile = new (Ctx) SourceFile( *moduleDecl, SourceFileKind::Interface, bufferID, parsingOpts); moduleDecl->addAuxiliaryFile(*sourceFile); std::vector ArgsRefs(Args.begin(), Args.end()); Result = ModuleDependencyInfo::forSwiftInterfaceModule( outputPathBase.str().str(), InPath, compiledCandidates, ArgsRefs, PCMArgs, Hash, isFramework, {}, /*module-cache-key*/ ""); if (Ctx.CASOpts.EnableCaching) { std::vector clangDependencyFiles; auto clangImporter = static_cast(Ctx.getClangModuleLoader()); clangImporter->addClangInvovcationDependencies(clangDependencyFiles); llvm::for_each(clangDependencyFiles, [&](std::string &file) { Result->addAuxiliaryFile(file); }); } // Walk the source file to find the import declarations. llvm::StringSet<> alreadyAddedModules; Result->addModuleImport(*sourceFile, alreadyAddedModules); // Collect implicitly imported modules in case they are not explicitly // printed in the interface file, e.g. SwiftOnoneSupport. auto &imInfo = mainMod->getImplicitImportInfo(); for (auto import : imInfo.AdditionalUnloadedImports) { Result->addModuleImport(import.module.getModulePath(), &alreadyAddedModules); } return std::error_code(); }); if (code) { return code; } return *Result; } ModuleDependencyVector SerializedModuleLoaderBase::getModuleDependencies( Identifier moduleName, StringRef moduleOutputPath, llvm::IntrusiveRefCntPtr CacheFS, const llvm::DenseSet &alreadySeenClangModules, clang::tooling::dependencies::DependencyScanningTool &clangScanningTool, InterfaceSubContextDelegate &delegate, llvm::TreePathPrefixMapper *mapper, bool isTestableDependencyLookup) { ImportPath::Module::Builder builder(moduleName); auto modulePath = builder.get(); auto moduleId = modulePath.front().Item; // Do not load interface module if it is testable import. ModuleLoadingMode MLM = isTestableDependencyLookup ? ModuleLoadingMode::OnlySerialized : LoadMode; // Instantiate dependency scanning "loaders". SmallVector, 2> scanners; // Placeholder dependencies must be resolved first, to prevent the // ModuleDependencyScanner from first discovering artifacts of a previous // build. Such artifacts are captured as compiledModuleCandidates in the // dependency graph of the placeholder dependency module itself. // FIXME: submodules? scanners.push_back(std::make_unique( Ctx, MLM, moduleId, Ctx.SearchPathOpts.PlaceholderDependencyModuleMap, delegate, moduleOutputPath)); scanners.push_back(std::make_unique( Ctx, MLM, moduleId, delegate, moduleOutputPath, SwiftModuleScanner::MDS_plain)); // Check whether there is a module with this name that we can import. assert(isa(scanners[0].get()) && "Expected PlaceholderSwiftModuleScanner as the first dependency " "scanner loader."); for (auto &scanner : scanners) { if (scanner->canImportModule(modulePath, nullptr, isTestableDependencyLookup)) { ModuleDependencyVector moduleDependnecies; moduleDependnecies.push_back( std::make_pair(ModuleDependencyID{moduleName.str().str(), scanner->dependencies->getKind()}, *(scanner->dependencies))); return moduleDependnecies; } } return {}; }