//===- JSONCompilationDatabase.cpp ----------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file contains the implementation of the JSONCompilationDatabase. // //===----------------------------------------------------------------------===// #include "clang/Tooling/JSONCompilationDatabase.h" #include "clang/Basic/LLVM.h" #include "clang/Tooling/CompilationDatabase.h" #include "clang/Tooling/CompilationDatabasePluginRegistry.h" #include "clang/Tooling/Tooling.h" #include "llvm/ADT/Optional.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Triple.h" #include "llvm/Support/Allocator.h" #include "llvm/Support/Casting.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/ErrorOr.h" #include "llvm/Support/Host.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Path.h" #include "llvm/Support/StringSaver.h" #include "llvm/Support/VirtualFileSystem.h" #include "llvm/Support/YAMLParser.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include #include #include #include using namespace clang; using namespace tooling; namespace { /// A parser for escaped strings of command line arguments. /// /// Assumes \-escaping for quoted arguments (see the documentation of /// unescapeCommandLine(...)). class CommandLineArgumentParser { public: CommandLineArgumentParser(StringRef CommandLine) : Input(CommandLine), Position(Input.begin()-1) {} std::vector parse() { bool HasMoreInput = true; while (HasMoreInput && nextNonWhitespace()) { std::string Argument; HasMoreInput = parseStringInto(Argument); CommandLine.push_back(Argument); } return CommandLine; } private: // All private methods return true if there is more input available. bool parseStringInto(std::string &String) { do { if (*Position == '"') { if (!parseDoubleQuotedStringInto(String)) return false; } else if (*Position == '\'') { if (!parseSingleQuotedStringInto(String)) return false; } else { if (!parseFreeStringInto(String)) return false; } } while (*Position != ' '); return true; } bool parseDoubleQuotedStringInto(std::string &String) { if (!next()) return false; while (*Position != '"') { if (!skipEscapeCharacter()) return false; String.push_back(*Position); if (!next()) return false; } return next(); } bool parseSingleQuotedStringInto(std::string &String) { if (!next()) return false; while (*Position != '\'') { String.push_back(*Position); if (!next()) return false; } return next(); } bool parseFreeStringInto(std::string &String) { do { if (!skipEscapeCharacter()) return false; String.push_back(*Position); if (!next()) return false; } while (*Position != ' ' && *Position != '"' && *Position != '\''); return true; } bool skipEscapeCharacter() { if (*Position == '\\') { return next(); } return true; } bool nextNonWhitespace() { do { if (!next()) return false; } while (*Position == ' '); return true; } bool next() { ++Position; return Position != Input.end(); } const StringRef Input; StringRef::iterator Position; std::vector CommandLine; }; std::vector unescapeCommandLine(JSONCommandLineSyntax Syntax, StringRef EscapedCommandLine) { if (Syntax == JSONCommandLineSyntax::AutoDetect) { #ifdef _WIN32 // Assume Windows command line parsing on Win32 Syntax = JSONCommandLineSyntax::Windows; #else Syntax = JSONCommandLineSyntax::Gnu; #endif } if (Syntax == JSONCommandLineSyntax::Windows) { llvm::BumpPtrAllocator Alloc; llvm::StringSaver Saver(Alloc); llvm::SmallVector T; llvm::cl::TokenizeWindowsCommandLine(EscapedCommandLine, Saver, T); std::vector Result(T.begin(), T.end()); return Result; } assert(Syntax == JSONCommandLineSyntax::Gnu); CommandLineArgumentParser parser(EscapedCommandLine); return parser.parse(); } // This plugin locates a nearby compile_command.json file, and also infers // compile commands for files not present in the database. class JSONCompilationDatabasePlugin : public CompilationDatabasePlugin { std::unique_ptr loadFromDirectory(StringRef Directory, std::string &ErrorMessage) override { SmallString<1024> JSONDatabasePath(Directory); llvm::sys::path::append(JSONDatabasePath, "compile_commands.json"); auto Base = JSONCompilationDatabase::loadFromFile( JSONDatabasePath, ErrorMessage, JSONCommandLineSyntax::AutoDetect); return Base ? inferTargetAndDriverMode( inferMissingCompileCommands(expandResponseFiles( std::move(Base), llvm::vfs::getRealFileSystem()))) : nullptr; } }; } // namespace // Register the JSONCompilationDatabasePlugin with the // CompilationDatabasePluginRegistry using this statically initialized variable. static CompilationDatabasePluginRegistry::Add X("json-compilation-database", "Reads JSON formatted compilation databases"); namespace clang { namespace tooling { // This anchor is used to force the linker to link in the generated object file // and thus register the JSONCompilationDatabasePlugin. volatile int JSONAnchorSource = 0; } // namespace tooling } // namespace clang std::unique_ptr JSONCompilationDatabase::loadFromFile(StringRef FilePath, std::string &ErrorMessage, JSONCommandLineSyntax Syntax) { // Don't mmap: if we're a long-lived process, the build system may overwrite. llvm::ErrorOr> DatabaseBuffer = llvm::MemoryBuffer::getFile(FilePath, /*IsText=*/false, /*RequiresNullTerminator=*/true, /*IsVolatile=*/true); if (std::error_code Result = DatabaseBuffer.getError()) { ErrorMessage = "Error while opening JSON database: " + Result.message(); return nullptr; } std::unique_ptr Database( new JSONCompilationDatabase(std::move(*DatabaseBuffer), Syntax)); if (!Database->parse(ErrorMessage)) return nullptr; return Database; } std::unique_ptr JSONCompilationDatabase::loadFromBuffer(StringRef DatabaseString, std::string &ErrorMessage, JSONCommandLineSyntax Syntax) { std::unique_ptr DatabaseBuffer( llvm::MemoryBuffer::getMemBufferCopy(DatabaseString)); std::unique_ptr Database( new JSONCompilationDatabase(std::move(DatabaseBuffer), Syntax)); if (!Database->parse(ErrorMessage)) return nullptr; return Database; } std::vector JSONCompilationDatabase::getCompileCommands(StringRef FilePath) const { SmallString<128> NativeFilePath; llvm::sys::path::native(FilePath, NativeFilePath); std::string Error; llvm::raw_string_ostream ES(Error); StringRef Match = MatchTrie.findEquivalent(NativeFilePath, ES); if (Match.empty()) return {}; const auto CommandsRefI = IndexByFile.find(Match); if (CommandsRefI == IndexByFile.end()) return {}; std::vector Commands; getCommands(CommandsRefI->getValue(), Commands); return Commands; } std::vector JSONCompilationDatabase::getAllFiles() const { std::vector Result; for (const auto &CommandRef : IndexByFile) Result.push_back(CommandRef.first().str()); return Result; } std::vector JSONCompilationDatabase::getAllCompileCommands() const { std::vector Commands; getCommands(AllCommands, Commands); return Commands; } static llvm::StringRef stripExecutableExtension(llvm::StringRef Name) { Name.consume_back(".exe"); return Name; } // There are compiler-wrappers (ccache, distcc, gomacc) that take the "real" // compiler as an argument, e.g. distcc gcc -O3 foo.c. // These end up in compile_commands.json when people set CC="distcc gcc". // Clang's driver doesn't understand this, so we need to unwrap. static bool unwrapCommand(std::vector &Args) { if (Args.size() < 2) return false; StringRef Wrapper = stripExecutableExtension(llvm::sys::path::filename(Args.front())); if (Wrapper == "distcc" || Wrapper == "gomacc" || Wrapper == "ccache" || Wrapper == "sccache") { // Most of these wrappers support being invoked 3 ways: // `distcc g++ file.c` This is the mode we're trying to match. // We need to drop `distcc`. // `distcc file.c` This acts like compiler is cc or similar. // Clang's driver can handle this, no change needed. // `g++ file.c` g++ is a symlink to distcc. // We don't even notice this case, and all is well. // // We need to distinguish between the first and second case. // The wrappers themselves don't take flags, so Args[1] is a compiler flag, // an input file, or a compiler. Inputs have extensions, compilers don't. bool HasCompiler = (Args[1][0] != '-') && !llvm::sys::path::has_extension(stripExecutableExtension(Args[1])); if (HasCompiler) { Args.erase(Args.begin()); return true; } // If !HasCompiler, wrappers act like GCC. Fine: so do we. } return false; } static std::vector nodeToCommandLine(JSONCommandLineSyntax Syntax, const std::vector &Nodes) { SmallString<1024> Storage; std::vector Arguments; if (Nodes.size() == 1) Arguments = unescapeCommandLine(Syntax, Nodes[0]->getValue(Storage)); else for (const auto *Node : Nodes) Arguments.push_back(std::string(Node->getValue(Storage))); // There may be multiple wrappers: using distcc and ccache together is common. while (unwrapCommand(Arguments)) ; return Arguments; } void JSONCompilationDatabase::getCommands( ArrayRef CommandsRef, std::vector &Commands) const { for (const auto &CommandRef : CommandsRef) { SmallString<8> DirectoryStorage; SmallString<32> FilenameStorage; SmallString<32> OutputStorage; auto Output = std::get<3>(CommandRef); Commands.emplace_back( std::get<0>(CommandRef)->getValue(DirectoryStorage), std::get<1>(CommandRef)->getValue(FilenameStorage), nodeToCommandLine(Syntax, std::get<2>(CommandRef)), Output ? Output->getValue(OutputStorage) : ""); } } bool JSONCompilationDatabase::parse(std::string &ErrorMessage) { llvm::yaml::document_iterator I = YAMLStream.begin(); if (I == YAMLStream.end()) { ErrorMessage = "Error while parsing YAML."; return false; } llvm::yaml::Node *Root = I->getRoot(); if (!Root) { ErrorMessage = "Error while parsing YAML."; return false; } auto *Array = dyn_cast(Root); if (!Array) { ErrorMessage = "Expected array."; return false; } for (auto &NextObject : *Array) { auto *Object = dyn_cast(&NextObject); if (!Object) { ErrorMessage = "Expected object."; return false; } llvm::yaml::ScalarNode *Directory = nullptr; llvm::Optional> Command; llvm::yaml::ScalarNode *File = nullptr; llvm::yaml::ScalarNode *Output = nullptr; for (auto& NextKeyValue : *Object) { auto *KeyString = dyn_cast(NextKeyValue.getKey()); if (!KeyString) { ErrorMessage = "Expected strings as key."; return false; } SmallString<10> KeyStorage; StringRef KeyValue = KeyString->getValue(KeyStorage); llvm::yaml::Node *Value = NextKeyValue.getValue(); if (!Value) { ErrorMessage = "Expected value."; return false; } auto *ValueString = dyn_cast(Value); auto *SequenceString = dyn_cast(Value); if (KeyValue == "arguments") { if (!SequenceString) { ErrorMessage = "Expected sequence as value."; return false; } Command = std::vector(); for (auto &Argument : *SequenceString) { auto *Scalar = dyn_cast(&Argument); if (!Scalar) { ErrorMessage = "Only strings are allowed in 'arguments'."; return false; } Command->push_back(Scalar); } } else { if (!ValueString) { ErrorMessage = "Expected string as value."; return false; } if (KeyValue == "directory") { Directory = ValueString; } else if (KeyValue == "command") { if (!Command) Command = std::vector(1, ValueString); } else if (KeyValue == "file") { File = ValueString; } else if (KeyValue == "output") { Output = ValueString; } else { ErrorMessage = ("Unknown key: \"" + KeyString->getRawValue() + "\"").str(); return false; } } } if (!File) { ErrorMessage = "Missing key: \"file\"."; return false; } if (!Command) { ErrorMessage = "Missing key: \"command\" or \"arguments\"."; return false; } if (!Directory) { ErrorMessage = "Missing key: \"directory\"."; return false; } SmallString<8> FileStorage; StringRef FileName = File->getValue(FileStorage); SmallString<128> NativeFilePath; if (llvm::sys::path::is_relative(FileName)) { SmallString<8> DirectoryStorage; SmallString<128> AbsolutePath( Directory->getValue(DirectoryStorage)); llvm::sys::path::append(AbsolutePath, FileName); llvm::sys::path::remove_dots(AbsolutePath, /*remove_dot_dot=*/ true); llvm::sys::path::native(AbsolutePath, NativeFilePath); } else { llvm::sys::path::native(FileName, NativeFilePath); } auto Cmd = CompileCommandRef(Directory, File, *Command, Output); IndexByFile[NativeFilePath].push_back(Cmd); AllCommands.push_back(Cmd); MatchTrie.insert(NativeFilePath); } return true; }