/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2020 Cppcheck team. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "cppcheck.h" #include "check.h" #include "checkunusedfunctions.h" #include "clangimport.h" #include "ctu.h" #include "library.h" #include "mathlib.h" #include "path.h" #include "platform.h" #include "preprocessor.h" // Preprocessor #include "suppressions.h" #include "timer.h" #include "tokenize.h" // Tokenizer #include "tokenlist.h" #include "version.h" #include "exprengine.h" #define PICOJSON_USE_INT64 #include #include #include #include #include #include #include #include #include #include #include // <- TEMPORARY #include #ifdef HAVE_RULES #define PCRE_STATIC #include #endif static const char Version[] = CPPCHECK_VERSION_STRING; static const char ExtraVersion[] = ""; static TimerResults s_timerResults; // CWE ids used static const CWE CWE398(398U); // Indicator of Poor Code Quality namespace { struct AddonInfo { std::string name; std::string scriptFile; std::string args; std::string python; static std::string getFullPath(const std::string &fileName, const std::string &exename) { if (Path::fileExists(fileName)) return fileName; const std::string exepath = Path::getPathFromFilename(exename); if (Path::fileExists(exepath + fileName)) return exepath + fileName; if (Path::fileExists(exepath + "addons/" + fileName)) return exepath + "addons/" + fileName; #ifdef FILESDIR if (Path::fileExists(FILESDIR + ("/" + fileName))) return FILESDIR + ("/" + fileName); if (Path::fileExists(FILESDIR + ("/addons/" + fileName))) return FILESDIR + ("/addons/" + fileName); #endif return ""; } std::string parseAddonInfo(const picojson::value &json, const std::string &fileName, const std::string &exename) { std::string json_error = picojson::get_last_error(); if (!json_error.empty()) { return "Loading " + fileName + " failed. " + json_error; } if (!json.is()) return "Loading " + fileName + " failed. Bad json."; picojson::object obj = json.get(); if (obj.count("args")) { if (!obj["args"].is()) return "Loading " + fileName + " failed. args must be array."; for (const picojson::value &v : obj["args"].get()) args += " " + v.get(); } if (obj.count("python")) { // Python was defined in the config file if (obj["python"].is()) { return "Loading " + fileName +" failed. python must not be an array."; } python = obj["python"].get(); } else { python = ""; } return getAddonInfo(obj["script"].get(), exename); } std::string getAddonInfo(const std::string &fileName, const std::string &exename) { if (fileName[0] == '{') { std::istringstream in(fileName); picojson::value json; in >> json; return parseAddonInfo(json, fileName, exename); } if (fileName.find(".") == std::string::npos) return getAddonInfo(fileName + ".py", exename); if (endsWith(fileName, ".py", 3)) { scriptFile = getFullPath(fileName, exename); if (scriptFile.empty()) return "Did not find addon " + fileName; std::string::size_type pos1 = scriptFile.rfind("/"); if (pos1 == std::string::npos) pos1 = 0; else pos1++; std::string::size_type pos2 = scriptFile.rfind("."); if (pos2 < pos1) pos2 = std::string::npos; name = scriptFile.substr(pos1, pos2 - pos1); return ""; } if (!endsWith(fileName, ".json", 5)) return "Failed to open addon " + fileName; std::ifstream fin(fileName); if (!fin.is_open()) return "Failed to open " + fileName; picojson::value json; fin >> json; return parseAddonInfo(json, fileName, exename); } }; } static std::string cmdFileName(std::string f) { f = Path::toNativeSeparators(f); if (f.find(" ") != std::string::npos) return "\"" + f + "\""; return f; } static std::vector split(const std::string &str, const std::string &sep=" ") { std::vector ret; for (std::string::size_type startPos = 0U; startPos < str.size();) { startPos = str.find_first_not_of(sep, startPos); if (startPos == std::string::npos) break; if (str[startPos] == '\"') { const std::string::size_type endPos = str.find("\"", startPos + 1); ret.push_back(str.substr(startPos + 1, endPos - startPos - 1)); startPos = (endPos < str.size()) ? (endPos + 1) : endPos; continue; } const std::string::size_type endPos = str.find(sep, startPos + 1); ret.push_back(str.substr(startPos, endPos - startPos)); startPos = endPos; } return ret; } static std::string executeAddon(const AddonInfo &addonInfo, const std::string &defaultPythonExe, const std::string &dumpFile, std::function,std::string,std::string*)> executeCommand) { const std::string redirect = "2>&1"; std::string pythonExe; if (!addonInfo.python.empty()) pythonExe = cmdFileName(addonInfo.python); else if (!defaultPythonExe.empty()) pythonExe = cmdFileName(defaultPythonExe); else { #ifdef _WIN32 const char *py_exes[] = { "python3.exe", "python.exe" }; #else const char *py_exes[] = { "python3", "python" }; #endif for (const char* py_exe : py_exes) { std::string out; if (executeCommand(py_exe, split("--version"), redirect, &out) && out.compare(0, 7, "Python ") == 0 && std::isdigit(out[7])) { pythonExe = py_exe; break; } } if (pythonExe.empty()) throw InternalError(nullptr, "Failed to auto detect python"); } const std::string args = cmdFileName(addonInfo.scriptFile) + " --cli" + addonInfo.args + " " + cmdFileName(dumpFile); std::string result; if (!executeCommand(pythonExe, split(args), redirect, &result)) throw InternalError(nullptr, "Failed to execute addon (command: '" + pythonExe + " " + args + "')"); // Validate output.. std::istringstream istr(result); std::string line; while (std::getline(istr, line)) { if (line.compare(0,9,"Checking ", 0, 9) != 0 && !line.empty() && line[0] != '{') throw InternalError(nullptr, "Failed to execute '" + pythonExe + " " + args + "'. " + result); } // Valid results return result; } static std::string getDefinesFlags(const std::string &semicolonSeparatedString) { std::string flags; for (const std::string &d: split(semicolonSeparatedString, ";")) flags += "-D" + d + " "; return flags; } CppCheck::CppCheck(ErrorLogger &errorLogger, bool useGlobalSuppressions, std::function,std::string,std::string*)> executeCommand) : mErrorLogger(errorLogger) , mExitCode(0) , mSuppressInternalErrorFound(false) , mUseGlobalSuppressions(useGlobalSuppressions) , mTooManyConfigs(false) , mSimplify(true) , mExecuteCommand(executeCommand) { } CppCheck::~CppCheck() { while (!mFileInfo.empty()) { delete mFileInfo.back(); mFileInfo.pop_back(); } s_timerResults.showResults(mSettings.showtime); } const char * CppCheck::version() { return Version; } const char * CppCheck::extraVersion() { return ExtraVersion; } static bool reportClangErrors(std::istream &is, std::function reportErr) { std::string line; while (std::getline(is, line)) { if (line.empty() || line[0] == ' ' || line[0] == '`' || line[0] == '-') continue; std::string::size_type pos3 = line.find(": error: "); if (pos3 == std::string::npos) pos3 = line.find(": fatal error:"); if (pos3 == std::string::npos) continue; // file:line:column: error: .... const std::string::size_type pos2 = line.rfind(":", pos3 - 1); const std::string::size_type pos1 = line.rfind(":", pos2 - 1); if (pos1 >= pos2 || pos2 >= pos3) continue; const std::string filename = line.substr(0, pos1); const std::string linenr = line.substr(pos1+1, pos2-pos1-1); const std::string colnr = line.substr(pos2+1, pos3-pos2-1); const std::string msg = line.substr(line.find(":", pos3+1) + 2); std::list locationList; ErrorMessage::FileLocation loc; loc.setfile(Path::toNativeSeparators(filename)); loc.line = std::atoi(linenr.c_str()); loc.column = std::atoi(colnr.c_str()); locationList.push_back(loc); ErrorMessage errmsg(locationList, loc.getfile(), Severity::error, msg, "syntaxError", false); reportErr(errmsg); return true; } return false; } unsigned int CppCheck::check(const std::string &path) { if (mSettings.clang) { if (!mSettings.quiet) mErrorLogger.reportOut(std::string("Checking ") + path + "..."); const std::string lang = Path::isCPP(path) ? "-x c++" : "-x c"; const std::string analyzerInfo = mSettings.buildDir.empty() ? std::string() : AnalyzerInformation::getAnalyzerInfoFile(mSettings.buildDir, path, ""); const std::string clangcmd = analyzerInfo + ".clang-cmd"; const std::string clangStderr = analyzerInfo + ".clang-stderr"; const std::string clangAst = analyzerInfo + ".clang-ast"; std::string exe = mSettings.clangExecutable; #ifdef _WIN32 // append .exe if it is not a path if (Path::fromNativeSeparators(mSettings.clangExecutable).find('/') == std::string::npos) { exe += ".exe"; } #endif std::string flags(lang + " "); if (Path::isCPP(path) && !mSettings.standards.stdValue.empty()) flags += "-std=" + mSettings.standards.stdValue + " "; for (const std::string &i: mSettings.includePaths) flags += "-I" + i + " "; flags += getDefinesFlags(mSettings.userDefines); const std::string args2 = "-fsyntax-only -Xclang -ast-dump -fno-color-diagnostics " + flags + path; const std::string redirect2 = analyzerInfo.empty() ? std::string("2>&1") : ("2> " + clangStderr); if (!mSettings.buildDir.empty()) { std::ofstream fout(clangcmd); fout << exe << " " << args2 << " " << redirect2 << std::endl; } else if (mSettings.verbose && !mSettings.quiet) { mErrorLogger.reportOut(exe + " " + args2); } std::string output2; if (!mExecuteCommand(exe,split(args2),redirect2,&output2) || output2.find("TranslationUnitDecl") == std::string::npos) { std::cerr << "Failed to execute '" << exe << " " << args2 << " " << redirect2 << "'" << std::endl; return 0; } // Ensure there are not syntax errors... if (!mSettings.buildDir.empty()) { std::ifstream fin(clangStderr); auto reportError = [this](const ErrorMessage& errorMessage) { reportErr(errorMessage); }; if (reportClangErrors(fin, reportError)) return 0; } else { std::istringstream istr(output2); auto reportError = [this](const ErrorMessage& errorMessage) { reportErr(errorMessage); }; if (reportClangErrors(istr, reportError)) return 0; } if (!mSettings.buildDir.empty()) { std::ofstream fout(clangAst); fout << output2 << std::endl; } try { std::istringstream ast(output2); Tokenizer tokenizer(&mSettings, this); tokenizer.list.appendFileIfNew(path); clangimport::parseClangAstDump(&tokenizer, ast); ValueFlow::setValues(&tokenizer.list, const_cast(tokenizer.getSymbolDatabase()), this, &mSettings); if (mSettings.debugnormal) tokenizer.printDebugOutput(1); checkNormalTokens(tokenizer); } catch (const InternalError &e) { internalError(path, e.errorMessage); mExitCode = 1; // e.g. reflect a syntax error } catch (const std::exception &e) { internalError(path, e.what()); } return mExitCode; } std::ifstream fin(path); return checkFile(Path::simplifyPath(path), emptyString, fin); } unsigned int CppCheck::check(const std::string &path, const std::string &content) { std::istringstream iss(content); return checkFile(Path::simplifyPath(path), emptyString, iss); } unsigned int CppCheck::check(const ImportProject::FileSettings &fs) { CppCheck temp(mErrorLogger, mUseGlobalSuppressions, mExecuteCommand); temp.mSettings = mSettings; if (!temp.mSettings.userDefines.empty()) temp.mSettings.userDefines += ';'; if (mSettings.clang) temp.mSettings.userDefines += fs.defines; else temp.mSettings.userDefines += fs.cppcheckDefines(); temp.mSettings.includePaths = fs.includePaths; temp.mSettings.userUndefs = fs.undefs; if (fs.standard.find("++") != std::string::npos) temp.mSettings.standards.setCPP(fs.standard); else if (!fs.standard.empty()) temp.mSettings.standards.setC(fs.standard); if (fs.platformType != Settings::Unspecified) temp.mSettings.platform(fs.platformType); if (mSettings.clang) { temp.mSettings.includePaths.insert(temp.mSettings.includePaths.end(), fs.systemIncludePaths.cbegin(), fs.systemIncludePaths.cend()); return temp.check(Path::simplifyPath(fs.filename)); } std::ifstream fin(fs.filename); unsigned int returnValue = temp.checkFile(Path::simplifyPath(fs.filename), fs.cfg, fin); mSettings.nomsg.addSuppressions(temp.mSettings.nomsg.getSuppressions()); return returnValue; } unsigned int CppCheck::checkFile(const std::string& filename, const std::string &cfgname, std::istream& fileStream) { mExitCode = 0; mSuppressInternalErrorFound = false; // only show debug warnings for accepted C/C++ source files if (!Path::acceptFile(filename)) mSettings.debugwarnings = false; if (Settings::terminated()) return mExitCode; if (!mSettings.quiet) { std::string fixedpath = Path::simplifyPath(filename); fixedpath = Path::toNativeSeparators(fixedpath); mErrorLogger.reportOut(std::string("Checking ") + fixedpath + ' ' + cfgname + std::string("...")); if (mSettings.verbose) { mErrorLogger.reportOut("Defines:" + mSettings.userDefines); std::string undefs; for (const std::string& U : mSettings.userUndefs) { if (!undefs.empty()) undefs += ';'; undefs += ' ' + U; } mErrorLogger.reportOut("Undefines:" + undefs); std::string includePaths; for (const std::string &I : mSettings.includePaths) includePaths += " -I" + I; mErrorLogger.reportOut("Includes:" + includePaths); mErrorLogger.reportOut(std::string("Platform:") + mSettings.platformString()); } } if (plistFile.is_open()) { plistFile << ErrorLogger::plistFooter(); plistFile.close(); } CheckUnusedFunctions checkUnusedFunctions(nullptr, nullptr, nullptr); try { Preprocessor preprocessor(mSettings, this); std::set configurations; simplecpp::OutputList outputList; std::vector files; simplecpp::TokenList tokens1(fileStream, files, filename, &outputList); // If there is a syntax error, report it and stop for (const simplecpp::Output &output : outputList) { bool err; switch (output.type) { case simplecpp::Output::ERROR: case simplecpp::Output::INCLUDE_NESTED_TOO_DEEPLY: case simplecpp::Output::SYNTAX_ERROR: case simplecpp::Output::UNHANDLED_CHAR_ERROR: case simplecpp::Output::EXPLICIT_INCLUDE_NOT_FOUND: err = true; break; case simplecpp::Output::WARNING: case simplecpp::Output::MISSING_HEADER: case simplecpp::Output::PORTABILITY_BACKSLASH: err = false; break; } if (err) { const ErrorMessage::FileLocation loc1(output.location.file(), output.location.line, output.location.col); std::list callstack(1, loc1); ErrorMessage errmsg(callstack, "", Severity::error, output.msg, "syntaxError", false); reportErr(errmsg); return mExitCode; } } if (!preprocessor.loadFiles(tokens1, files)) return mExitCode; if (!mSettings.plistOutput.empty()) { std::string filename2; if (filename.find('/') != std::string::npos) filename2 = filename.substr(filename.rfind('/') + 1); else filename2 = filename; std::size_t fileNameHash = std::hash {}(filename); filename2 = mSettings.plistOutput + filename2.substr(0, filename2.find('.')) + "_" + std::to_string(fileNameHash) + ".plist"; plistFile.open(filename2); plistFile << ErrorLogger::plistHeader(version(), files); } // write dump file xml prolog std::ofstream fdump; std::string dumpFile; if (mSettings.dump || !mSettings.addons.empty()) { if (!mSettings.dumpFile.empty()) dumpFile = mSettings.dumpFile; else if (!mSettings.dump && !mSettings.buildDir.empty()) dumpFile = AnalyzerInformation::getAnalyzerInfoFile(mSettings.buildDir, filename, "") + ".dump"; else dumpFile = filename + ".dump"; fdump.open(dumpFile); if (fdump.is_open()) { fdump << "" << std::endl; fdump << "" << std::endl; fdump << " \n"; fdump << " " << std::endl; for (unsigned int i = 0; i < files.size(); ++i) fdump << " " << std::endl; for (const simplecpp::Token *tok = tokens1.cfront(); tok; tok = tok->next) { fdump << " location.fileIndex << "\" " << "linenr=\"" << tok->location.line << "\" " << "column=\"" << tok->location.col << "\" " << "str=\"" << ErrorLogger::toxml(tok->str()) << "\"" << "/>" << std::endl; } fdump << " " << std::endl; } } // Parse comments and then remove them preprocessor.inlineSuppressions(tokens1); if ((mSettings.dump || !mSettings.addons.empty()) && fdump.is_open()) { mSettings.nomsg.dump(fdump); } tokens1.removeComments(); preprocessor.removeComments(); if (!mSettings.buildDir.empty()) { // Get toolinfo std::ostringstream toolinfo; toolinfo << CPPCHECK_VERSION_STRING; toolinfo << (mSettings.isEnabled(Settings::WARNING) ? 'w' : ' '); toolinfo << (mSettings.isEnabled(Settings::STYLE) ? 's' : ' '); toolinfo << (mSettings.isEnabled(Settings::PERFORMANCE) ? 'p' : ' '); toolinfo << (mSettings.isEnabled(Settings::PORTABILITY) ? 'p' : ' '); toolinfo << (mSettings.isEnabled(Settings::INFORMATION) ? 'i' : ' '); toolinfo << mSettings.userDefines; mSettings.nomsg.dump(toolinfo); // Calculate checksum so it can be compared with old checksum / future checksums const unsigned int checksum = preprocessor.calculateChecksum(tokens1, toolinfo.str()); std::list errors; if (!mAnalyzerInformation.analyzeFile(mSettings.buildDir, filename, cfgname, checksum, &errors)) { while (!errors.empty()) { reportErr(errors.front()); errors.pop_front(); } return mExitCode; // known results => no need to reanalyze file } } // Get directives preprocessor.setDirectives(tokens1); preprocessor.simplifyPragmaAsm(&tokens1); preprocessor.setPlatformInfo(&tokens1); // Get configurations.. if ((mSettings.checkAllConfigurations && mSettings.userDefines.empty()) || mSettings.force) { Timer t("Preprocessor::getConfigs", mSettings.showtime, &s_timerResults); configurations = preprocessor.getConfigs(tokens1); } else { configurations.insert(mSettings.userDefines); } if (mSettings.checkConfiguration) { for (const std::string &config : configurations) (void)preprocessor.getcode(tokens1, config, files, true); return 0; } // Run define rules on raw code for (const Settings::Rule &rule : mSettings.rules) { if (rule.tokenlist != "define") continue; std::string code; const std::list &directives = preprocessor.getDirectives(); for (const Directive &dir : directives) { if (dir.str.compare(0,8,"#define ") == 0) code += "#line " + MathLib::toString(dir.linenr) + " \"" + dir.file + "\"\n" + dir.str + '\n'; } Tokenizer tokenizer2(&mSettings, this); std::istringstream istr2(code); tokenizer2.list.createTokens(istr2); executeRules("define", tokenizer2); break; } if (!mSettings.force && configurations.size() > mSettings.maxConfigs) { if (mSettings.isEnabled(Settings::INFORMATION)) { tooManyConfigsError(Path::toNativeSeparators(filename),configurations.size()); } else { mTooManyConfigs = true; } } std::set checksums; int checkCount = 0; bool hasValidConfig = false; std::list configurationError; for (const std::string &currCfg : configurations) { // bail out if terminated if (Settings::terminated()) break; // Check only a few configurations (default 12), after that bail out, unless --force // was used. if (!mSettings.force && ++checkCount > mSettings.maxConfigs) break; if (!mSettings.userDefines.empty()) { mCurrentConfig = mSettings.userDefines; const std::vector v1(split(mSettings.userDefines, ";")); for (const std::string &cfg: split(currCfg, ";")) { if (std::find(v1.begin(), v1.end(), cfg) == v1.end()) { mCurrentConfig += ";" + cfg; } } } else { mCurrentConfig = currCfg; } if (mSettings.preprocessOnly) { Timer t("Preprocessor::getcode", mSettings.showtime, &s_timerResults); std::string codeWithoutCfg = preprocessor.getcode(tokens1, mCurrentConfig, files, true); t.stop(); if (codeWithoutCfg.compare(0,5,"#file") == 0) codeWithoutCfg.insert(0U, "//"); std::string::size_type pos = 0; while ((pos = codeWithoutCfg.find("\n#file",pos)) != std::string::npos) codeWithoutCfg.insert(pos+1U, "//"); pos = 0; while ((pos = codeWithoutCfg.find("\n#endfile",pos)) != std::string::npos) codeWithoutCfg.insert(pos+1U, "//"); pos = 0; while ((pos = codeWithoutCfg.find(Preprocessor::macroChar,pos)) != std::string::npos) codeWithoutCfg[pos] = ' '; reportOut(codeWithoutCfg); continue; } Tokenizer tokenizer(&mSettings, this); tokenizer.setPreprocessor(&preprocessor); if (mSettings.showtime != SHOWTIME_MODES::SHOWTIME_NONE) tokenizer.setTimerResults(&s_timerResults); try { // Create tokens, skip rest of iteration if failed { Timer timer("Tokenizer::createTokens", mSettings.showtime, &s_timerResults); simplecpp::TokenList tokensP = preprocessor.preprocess(tokens1, mCurrentConfig, files, true); tokenizer.createTokens(std::move(tokensP)); } hasValidConfig = true; // If only errors are printed, print filename after the check if (!mSettings.quiet && (!mCurrentConfig.empty() || checkCount > 1)) { std::string fixedpath = Path::simplifyPath(filename); fixedpath = Path::toNativeSeparators(fixedpath); mErrorLogger.reportOut("Checking " + fixedpath + ": " + mCurrentConfig + "..."); } if (!tokenizer.tokens()) continue; // skip rest of iteration if just checking configuration if (mSettings.checkConfiguration) continue; // Check raw tokens checkRawTokens(tokenizer); // Simplify tokens into normal form, skip rest of iteration if failed Timer timer2("Tokenizer::simplifyTokens1", mSettings.showtime, &s_timerResults); bool result = tokenizer.simplifyTokens1(mCurrentConfig); timer2.stop(); if (!result) continue; // dump xml if --dump if ((mSettings.dump || !mSettings.addons.empty()) && fdump.is_open()) { fdump << "" << std::endl; fdump << " " << std::endl; fdump << " " << std::endl; fdump << " " << std::endl; fdump << " " << std::endl; preprocessor.dump(fdump); tokenizer.dump(fdump); fdump << "" << std::endl; } // Skip if we already met the same simplified token list if (mSettings.force || mSettings.maxConfigs > 1) { const unsigned long long checksum = tokenizer.list.calculateChecksum(); if (checksums.find(checksum) != checksums.end()) { if (mSettings.debugwarnings) purgedConfigurationMessage(filename, mCurrentConfig); continue; } checksums.insert(checksum); } // Check normal tokens checkNormalTokens(tokenizer); // Analyze info.. if (!mSettings.buildDir.empty()) checkUnusedFunctions.parseTokens(tokenizer, filename.c_str(), &mSettings); // simplify more if required, skip rest of iteration if failed if (mSimplify && hasRule("simple")) { std::cout << "Handling of \"simple\" rules is deprecated and will be removed in Cppcheck 2.5." << std::endl; // if further simplification fails then skip rest of iteration Timer timer3("Tokenizer::simplifyTokenList2", mSettings.showtime, &s_timerResults); result = tokenizer.simplifyTokenList2(); timer3.stop(); if (!result) continue; if (!Settings::terminated()) executeRules("simple", tokenizer); } } catch (const simplecpp::Output &o) { // #error etc during preprocessing configurationError.push_back((mCurrentConfig.empty() ? "\'\'" : mCurrentConfig) + " : [" + o.location.file() + ':' + MathLib::toString(o.location.line) + "] " + o.msg); --checkCount; // don't count invalid configurations continue; } catch (const InternalError &e) { std::list locationList; if (e.token) { ErrorMessage::FileLocation loc(e.token, &tokenizer.list); locationList.push_back(loc); } else { ErrorMessage::FileLocation loc(tokenizer.list.getSourceFilePath(), 0, 0); ErrorMessage::FileLocation loc2(filename, 0, 0); locationList.push_back(loc2); locationList.push_back(loc); } ErrorMessage errmsg(locationList, tokenizer.list.getSourceFilePath(), Severity::error, e.errorMessage, e.id, false); if (errmsg.severity == Severity::error || mSettings.isEnabled(errmsg.severity)) reportErr(errmsg); } } if (!hasValidConfig && configurations.size() > 1 && mSettings.isEnabled(Settings::INFORMATION)) { std::string msg; msg = "This file is not analyzed. Cppcheck failed to extract a valid configuration. Use -v for more details."; msg += "\nThis file is not analyzed. Cppcheck failed to extract a valid configuration. The tested configurations have these preprocessor errors:"; for (const std::string &s : configurationError) msg += '\n' + s; std::list locationList; ErrorMessage::FileLocation loc; loc.setfile(Path::toNativeSeparators(filename)); locationList.push_back(loc); ErrorMessage errmsg(locationList, loc.getfile(), Severity::information, msg, "noValidConfiguration", false); reportErr(errmsg); } // dumped all configs, close root element now if ((mSettings.dump || !mSettings.addons.empty()) && fdump.is_open()) fdump << "" << std::endl; if (!mSettings.addons.empty()) { fdump.close(); for (const std::string &addon : mSettings.addons) { struct AddonInfo addonInfo; const std::string &failedToGetAddonInfo = addonInfo.getAddonInfo(addon, mSettings.exename); if (!failedToGetAddonInfo.empty()) { reportOut(failedToGetAddonInfo); mExitCode = 1; continue; } const std::string results = executeAddon(addonInfo, mSettings.addonPython, dumpFile, mExecuteCommand); std::istringstream istr(results); std::string line; while (std::getline(istr, line)) { if (line.compare(0,1,"{") != 0) continue; picojson::value res; std::istringstream istr2(line); istr2 >> res; if (!res.is()) continue; picojson::object obj = res.get(); const std::string fileName = obj["file"].get(); const int64_t lineNumber = obj["linenr"].get(); const int64_t column = obj["column"].get(); ErrorMessage errmsg; errmsg.callStack.emplace_back(ErrorMessage::FileLocation(fileName, lineNumber, column)); errmsg.id = obj["addon"].get() + "-" + obj["errorId"].get(); const std::string text = obj["message"].get(); errmsg.setmsg(text); const std::string severity = obj["severity"].get(); errmsg.severity = Severity::fromString(severity); if (errmsg.severity == Severity::SeverityType::none) continue; errmsg.file0 = fileName; reportErr(errmsg); } } std::remove(dumpFile.c_str()); } } catch (const std::runtime_error &e) { internalError(filename, e.what()); } catch (const std::bad_alloc &e) { internalError(filename, e.what()); } catch (const InternalError &e) { internalError(filename, e.errorMessage); mExitCode=1; // e.g. reflect a syntax error } mAnalyzerInformation.setFileInfo("CheckUnusedFunctions", checkUnusedFunctions.analyzerInfo()); mAnalyzerInformation.close(); // In jointSuppressionReport mode, unmatched suppressions are // collected after all files are processed if (!mSettings.jointSuppressionReport && (mSettings.isEnabled(Settings::INFORMATION) || mSettings.checkConfiguration)) { reportUnmatchedSuppressions(mSettings.nomsg.getUnmatchedLocalSuppressions(filename, isUnusedFunctionCheckEnabled())); } mErrorList.clear(); return mExitCode; } void CppCheck::internalError(const std::string &filename, const std::string &msg) { const std::string fixedpath = Path::toNativeSeparators(filename); const std::string fullmsg("Bailing out from checking " + fixedpath + " since there was an internal error: " + msg); if (mSettings.isEnabled(Settings::INFORMATION)) { const ErrorMessage::FileLocation loc1(filename, 0, 0); std::list callstack(1, loc1); ErrorMessage errmsg(callstack, emptyString, Severity::information, fullmsg, "internalError", false); mErrorLogger.reportErr(errmsg); } else { // Report on stdout mErrorLogger.reportOut(fullmsg); } } //--------------------------------------------------------------------------- // CppCheck - A function that checks a raw token list //--------------------------------------------------------------------------- void CppCheck::checkRawTokens(const Tokenizer &tokenizer) { // Execute rules for "raw" code executeRules("raw", tokenizer); } //--------------------------------------------------------------------------- // CppCheck - A function that checks a normal token list //--------------------------------------------------------------------------- void CppCheck::checkNormalTokens(const Tokenizer &tokenizer) { mSettings.library.bugHunting = mSettings.bugHunting; if (mSettings.bugHunting) ExprEngine::runChecks(this, &tokenizer, &mSettings); else { // call all "runChecks" in all registered Check classes for (Check *check : Check::instances()) { if (Settings::terminated()) return; if (Tokenizer::isMaxTime()) return; Timer timerRunChecks(check->name() + "::runChecks", mSettings.showtime, &s_timerResults); check->runChecks(&tokenizer, &mSettings, this); } if (mSettings.clang) // TODO: Use CTU for Clang analysis return; // Analyse the tokens.. CTU::FileInfo *fi1 = CTU::getFileInfo(&tokenizer); if (fi1) { mFileInfo.push_back(fi1); mAnalyzerInformation.setFileInfo("ctu", fi1->toString()); } for (const Check *check : Check::instances()) { Check::FileInfo *fi = check->getFileInfo(&tokenizer, &mSettings); if (fi != nullptr) { mFileInfo.push_back(fi); mAnalyzerInformation.setFileInfo(check->name(), fi->toString()); } } executeRules("normal", tokenizer); } } //--------------------------------------------------------------------------- bool CppCheck::hasRule(const std::string &tokenlist) const { #ifdef HAVE_RULES for (const Settings::Rule &rule : mSettings.rules) { if (rule.tokenlist == tokenlist) return true; } #else (void)tokenlist; #endif return false; } #ifdef HAVE_RULES static const char * pcreErrorCodeToString(const int pcreExecRet) { switch (pcreExecRet) { case PCRE_ERROR_NULL: return "Either code or subject was passed as NULL, or ovector was NULL " "and ovecsize was not zero (PCRE_ERROR_NULL)"; case PCRE_ERROR_BADOPTION: return "An unrecognized bit was set in the options argument (PCRE_ERROR_BADOPTION)"; case PCRE_ERROR_BADMAGIC: return "PCRE stores a 4-byte \"magic number\" at the start of the compiled code, " "to catch the case when it is passed a junk pointer and to detect when a " "pattern that was compiled in an environment of one endianness is run in " "an environment with the other endianness. This is the error that PCRE " "gives when the magic number is not present (PCRE_ERROR_BADMAGIC)"; case PCRE_ERROR_UNKNOWN_NODE: return "While running the pattern match, an unknown item was encountered in the " "compiled pattern. This error could be caused by a bug in PCRE or by " "overwriting of the compiled pattern (PCRE_ERROR_UNKNOWN_NODE)"; case PCRE_ERROR_NOMEMORY: return "If a pattern contains back references, but the ovector that is passed " "to pcre_exec() is not big enough to remember the referenced substrings, " "PCRE gets a block of memory at the start of matching to use for this purpose. " "If the call via pcre_malloc() fails, this error is given. The memory is " "automatically freed at the end of matching. This error is also given if " "pcre_stack_malloc() fails in pcre_exec(). " "This can happen only when PCRE has been compiled with " "--disable-stack-for-recursion (PCRE_ERROR_NOMEMORY)"; case PCRE_ERROR_NOSUBSTRING: return "This error is used by the pcre_copy_substring(), pcre_get_substring(), " "and pcre_get_substring_list() functions (see below). " "It is never returned by pcre_exec() (PCRE_ERROR_NOSUBSTRING)"; case PCRE_ERROR_MATCHLIMIT: return "The backtracking limit, as specified by the match_limit field in a pcre_extra " "structure (or defaulted) was reached. " "See the description above (PCRE_ERROR_MATCHLIMIT)"; case PCRE_ERROR_CALLOUT: return "This error is never generated by pcre_exec() itself. " "It is provided for use by callout functions that want to yield a distinctive " "error code. See the pcrecallout documentation for details (PCRE_ERROR_CALLOUT)"; case PCRE_ERROR_BADUTF8: return "A string that contains an invalid UTF-8 byte sequence was passed as a subject, " "and the PCRE_NO_UTF8_CHECK option was not set. If the size of the output vector " "(ovecsize) is at least 2, the byte offset to the start of the the invalid UTF-8 " "character is placed in the first element, and a reason code is placed in the " "second element. The reason codes are listed in the following section. For " "backward compatibility, if PCRE_PARTIAL_HARD is set and the problem is a truncated " "UTF-8 character at the end of the subject (reason codes 1 to 5), " "PCRE_ERROR_SHORTUTF8 is returned instead of PCRE_ERROR_BADUTF8"; case PCRE_ERROR_BADUTF8_OFFSET: return "The UTF-8 byte sequence that was passed as a subject was checked and found to " "be valid (the PCRE_NO_UTF8_CHECK option was not set), but the value of " "startoffset did not point to the beginning of a UTF-8 character or the end of " "the subject (PCRE_ERROR_BADUTF8_OFFSET)"; case PCRE_ERROR_PARTIAL: return "The subject string did not match, but it did match partially. See the " "pcrepartial documentation for details of partial matching (PCRE_ERROR_PARTIAL)"; case PCRE_ERROR_BADPARTIAL: return "This code is no longer in use. It was formerly returned when the PCRE_PARTIAL " "option was used with a compiled pattern containing items that were not supported " "for partial matching. From release 8.00 onwards, there are no restrictions on " "partial matching (PCRE_ERROR_BADPARTIAL)"; case PCRE_ERROR_INTERNAL: return "An unexpected internal error has occurred. This error could be caused by a bug " "in PCRE or by overwriting of the compiled pattern (PCRE_ERROR_INTERNAL)"; case PCRE_ERROR_BADCOUNT: return"This error is given if the value of the ovecsize argument is negative " "(PCRE_ERROR_BADCOUNT)"; case PCRE_ERROR_RECURSIONLIMIT : return "The internal recursion limit, as specified by the match_limit_recursion " "field in a pcre_extra structure (or defaulted) was reached. " "See the description above (PCRE_ERROR_RECURSIONLIMIT)"; case PCRE_ERROR_DFA_UITEM: return "PCRE_ERROR_DFA_UITEM"; case PCRE_ERROR_DFA_UCOND: return "PCRE_ERROR_DFA_UCOND"; case PCRE_ERROR_DFA_WSSIZE: return "PCRE_ERROR_DFA_WSSIZE"; case PCRE_ERROR_DFA_RECURSE: return "PCRE_ERROR_DFA_RECURSE"; case PCRE_ERROR_NULLWSLIMIT: return "PCRE_ERROR_NULLWSLIMIT"; case PCRE_ERROR_BADNEWLINE: return "An invalid combination of PCRE_NEWLINE_xxx options was " "given (PCRE_ERROR_BADNEWLINE)"; case PCRE_ERROR_BADOFFSET: return "The value of startoffset was negative or greater than the length " "of the subject, that is, the value in length (PCRE_ERROR_BADOFFSET)"; case PCRE_ERROR_SHORTUTF8: return "This error is returned instead of PCRE_ERROR_BADUTF8 when the subject " "string ends with a truncated UTF-8 character and the PCRE_PARTIAL_HARD option is set. " "Information about the failure is returned as for PCRE_ERROR_BADUTF8. " "It is in fact sufficient to detect this case, but this special error code for " "PCRE_PARTIAL_HARD precedes the implementation of returned information; " "it is retained for backwards compatibility (PCRE_ERROR_SHORTUTF8)"; case PCRE_ERROR_RECURSELOOP: return "This error is returned when pcre_exec() detects a recursion loop " "within the pattern. Specifically, it means that either the whole pattern " "or a subpattern has been called recursively for the second time at the same " "position in the subject string. Some simple patterns that might do this " "are detected and faulted at compile time, but more complicated cases, " "in particular mutual recursions between two different subpatterns, " "cannot be detected until run time (PCRE_ERROR_RECURSELOOP)"; case PCRE_ERROR_JIT_STACKLIMIT: return "This error is returned when a pattern that was successfully studied " "using a JIT compile option is being matched, but the memory available " "for the just-in-time processing stack is not large enough. See the pcrejit " "documentation for more details (PCRE_ERROR_JIT_STACKLIMIT)"; case PCRE_ERROR_BADMODE: return "This error is given if a pattern that was compiled by the 8-bit library " "is passed to a 16-bit or 32-bit library function, or vice versa (PCRE_ERROR_BADMODE)"; case PCRE_ERROR_BADENDIANNESS: return "This error is given if a pattern that was compiled and saved is reloaded on a " "host with different endianness. The utility function pcre_pattern_to_host_byte_order() " "can be used to convert such a pattern so that it runs on the new host (PCRE_ERROR_BADENDIANNESS)"; case PCRE_ERROR_DFA_BADRESTART: return "PCRE_ERROR_DFA_BADRESTART"; #if PCRE_MAJOR >= 8 && PCRE_MINOR >= 32 case PCRE_ERROR_BADLENGTH: return "This error is given if pcre_exec() is called with a negative value for the length argument (PCRE_ERROR_BADLENGTH)"; case PCRE_ERROR_JIT_BADOPTION: return "This error is returned when a pattern that was successfully studied using a JIT compile " "option is being matched, but the matching mode (partial or complete match) does not correspond " "to any JIT compilation mode. When the JIT fast path function is used, this error may be " "also given for invalid options. See the pcrejit documentation for more details (PCRE_ERROR_JIT_BADOPTION)"; #endif } return ""; } #endif // HAVE_RULES void CppCheck::executeRules(const std::string &tokenlist, const Tokenizer &tokenizer) { (void)tokenlist; (void)tokenizer; #ifdef HAVE_RULES // There is no rule to execute if (!hasRule(tokenlist)) return; // Write all tokens in a string that can be parsed by pcre std::ostringstream ostr; for (const Token *tok = tokenizer.tokens(); tok; tok = tok->next()) ostr << " " << tok->str(); const std::string str(ostr.str()); for (const Settings::Rule &rule : mSettings.rules) { if (rule.pattern.empty() || rule.id.empty() || rule.severity == Severity::none || rule.tokenlist != tokenlist) continue; if (!mSettings.quiet) { reportOut("Processing rule: " + rule.pattern); } const char *pcreCompileErrorStr = nullptr; int erroffset = 0; pcre * const re = pcre_compile(rule.pattern.c_str(),0,&pcreCompileErrorStr,&erroffset,nullptr); if (!re) { if (pcreCompileErrorStr) { const std::string msg = "pcre_compile failed: " + std::string(pcreCompileErrorStr); const ErrorMessage errmsg(std::list(), emptyString, Severity::error, msg, "pcre_compile", false); reportErr(errmsg); } continue; } // Optimize the regex, but only if PCRE_CONFIG_JIT is available #ifdef PCRE_CONFIG_JIT const char *pcreStudyErrorStr = nullptr; pcre_extra * const pcreExtra = pcre_study(re, PCRE_STUDY_JIT_COMPILE, &pcreStudyErrorStr); // pcre_study() returns NULL for both errors and when it can not optimize the regex. // The last argument is how one checks for errors. // It is NULL if everything works, and points to an error string otherwise. if (pcreStudyErrorStr) { const std::string msg = "pcre_study failed: " + std::string(pcreStudyErrorStr); const ErrorMessage errmsg(std::list(), emptyString, Severity::error, msg, "pcre_study", false); reportErr(errmsg); // pcre_compile() worked, but pcre_study() returned an error. Free the resources allocated by pcre_compile(). pcre_free(re); continue; } #else const pcre_extra * const pcreExtra = nullptr; #endif int pos = 0; int ovector[30]= {0}; while (pos < (int)str.size()) { const int pcreExecRet = pcre_exec(re, pcreExtra, str.c_str(), (int)str.size(), pos, 0, ovector, 30); if (pcreExecRet < 0) { const std::string errorMessage = pcreErrorCodeToString(pcreExecRet); if (!errorMessage.empty()) { const ErrorMessage errmsg(std::list(), emptyString, Severity::error, std::string("pcre_exec failed: ") + errorMessage, "pcre_exec", false); reportErr(errmsg); } break; } const unsigned int pos1 = (unsigned int)ovector[0]; const unsigned int pos2 = (unsigned int)ovector[1]; // jump to the end of the match for the next pcre_exec pos = (int)pos2; // determine location.. ErrorMessage::FileLocation loc; loc.setfile(tokenizer.list.getSourceFilePath()); loc.line = 0; std::size_t len = 0; for (const Token *tok = tokenizer.tokens(); tok; tok = tok->next()) { len = len + 1U + tok->str().size(); if (len > pos1) { loc.setfile(tokenizer.list.getFiles().at(tok->fileIndex())); loc.line = tok->linenr(); break; } } const std::list callStack(1, loc); // Create error message std::string summary; if (rule.summary.empty()) summary = "found '" + str.substr(pos1, pos2 - pos1) + "'"; else summary = rule.summary; const ErrorMessage errmsg(callStack, tokenizer.list.getSourceFilePath(), rule.severity, summary, rule.id, false); // Report error reportErr(errmsg); } pcre_free(re); #ifdef PCRE_CONFIG_JIT // Free up the EXTRA PCRE value (may be NULL at this point) if (pcreExtra) { pcre_free_study(pcreExtra); } #endif } #endif } Settings &CppCheck::settings() { return mSettings; } void CppCheck::tooManyConfigsError(const std::string &file, const int numberOfConfigurations) { if (!mSettings.isEnabled(Settings::INFORMATION) && !mTooManyConfigs) return; mTooManyConfigs = false; if (mSettings.isEnabled(Settings::INFORMATION) && file.empty()) return; std::list loclist; if (!file.empty()) { ErrorMessage::FileLocation location; location.setfile(file); loclist.push_back(location); } std::ostringstream msg; msg << "Too many #ifdef configurations - cppcheck only checks " << mSettings.maxConfigs; if (numberOfConfigurations > mSettings.maxConfigs) msg << " of " << numberOfConfigurations << " configurations. Use --force to check all configurations.\n"; if (file.empty()) msg << " configurations. Use --force to check all configurations. For more details, use --enable=information.\n"; msg << "The checking of the file will be interrupted because there are too many " "#ifdef configurations. Checking of all #ifdef configurations can be forced " "by --force command line option or from GUI preferences. However that may " "increase the checking time."; if (file.empty()) msg << " For more details, use --enable=information."; ErrorMessage errmsg(loclist, emptyString, Severity::information, msg.str(), "toomanyconfigs", CWE398, false); reportErr(errmsg); } void CppCheck::purgedConfigurationMessage(const std::string &file, const std::string& configuration) { mTooManyConfigs = false; if (mSettings.isEnabled(Settings::INFORMATION) && file.empty()) return; std::list loclist; if (!file.empty()) { ErrorMessage::FileLocation location; location.setfile(file); loclist.push_back(location); } ErrorMessage errmsg(loclist, emptyString, Severity::information, "The configuration '" + configuration + "' was not checked because its code equals another one.", "purgedConfiguration", false); reportErr(errmsg); } //--------------------------------------------------------------------------- void CppCheck::reportErr(const ErrorMessage &msg) { mSuppressInternalErrorFound = false; if (!mSettings.library.reportErrors(msg.file0)) return; const std::string errmsg = msg.toString(mSettings.verbose); if (errmsg.empty()) return; // Alert only about unique errors if (std::find(mErrorList.begin(), mErrorList.end(), errmsg) != mErrorList.end()) return; const Suppressions::ErrorMessage errorMessage = msg.toSuppressionsErrorMessage(); if (mUseGlobalSuppressions) { if (mSettings.nomsg.isSuppressed(errorMessage)) { mSuppressInternalErrorFound = true; return; } } else { if (mSettings.nomsg.isSuppressedLocal(errorMessage)) { mSuppressInternalErrorFound = true; return; } } if (!mSettings.nofail.isSuppressed(errorMessage) && !mSettings.nomsg.isSuppressed(errorMessage)) { mExitCode = 1; } mErrorList.push_back(errmsg); mErrorLogger.reportErr(msg); mAnalyzerInformation.reportErr(msg, mSettings.verbose); if (!mSettings.plistOutput.empty() && plistFile.is_open()) { plistFile << ErrorLogger::plistData(msg); } } void CppCheck::reportOut(const std::string &outmsg) { mErrorLogger.reportOut(outmsg); } void CppCheck::reportProgress(const std::string &filename, const char stage[], const std::size_t value) { mErrorLogger.reportProgress(filename, stage, value); } void CppCheck::reportInfo(const ErrorMessage &msg) { const Suppressions::ErrorMessage &errorMessage = msg.toSuppressionsErrorMessage(); if (!mSettings.nomsg.isSuppressed(errorMessage)) mErrorLogger.reportInfo(msg); } void CppCheck::reportStatus(unsigned int /*fileindex*/, unsigned int /*filecount*/, std::size_t /*sizedone*/, std::size_t /*sizetotal*/) { } void CppCheck::bughuntingReport(const std::string &str) { mErrorLogger.bughuntingReport(str); } void CppCheck::getErrorMessages() { Settings s(mSettings); s.addEnabled("warning"); s.addEnabled("style"); s.addEnabled("portability"); s.addEnabled("performance"); s.addEnabled("information"); purgedConfigurationMessage("",""); mTooManyConfigs = true; tooManyConfigsError("",0U); // call all "getErrorMessages" in all registered Check classes for (std::list::const_iterator it = Check::instances().begin(); it != Check::instances().end(); ++it) (*it)->getErrorMessages(this, &s); Preprocessor::getErrorMessages(this, &s); } void CppCheck::analyseClangTidy(const ImportProject::FileSettings &fileSettings) { std::string allIncludes = ""; for (const std::string &inc : fileSettings.includePaths) { allIncludes = allIncludes + "-I\"" + inc + "\" "; } const std::string allDefines = getDefinesFlags(fileSettings.defines); #ifdef _WIN32 const char exe[] = "clang-tidy.exe"; #else const char exe[] = "clang-tidy"; #endif const std::string args = "-quiet -checks=*,-clang-analyzer-*,-llvm* \"" + fileSettings.filename + "\" -- " + allIncludes + allDefines; std::string output; if (!mExecuteCommand(exe, split(args), "", &output)) { std::cerr << "Failed to execute '" << exe << "'" << std::endl; return; } // parse output and create error messages std::istringstream istr(output); std::string line; if (!mSettings.buildDir.empty()) { const std::string analyzerInfoFile = AnalyzerInformation::getAnalyzerInfoFile(mSettings.buildDir, fileSettings.filename, ""); std::ofstream fcmd(analyzerInfoFile + ".clang-tidy-cmd"); fcmd << istr.str(); } while (std::getline(istr, line)) { if (line.find("error") == std::string::npos && line.find("warning") == std::string::npos) continue; std::size_t endColumnPos = line.find(": error:"); if (endColumnPos == std::string::npos) { endColumnPos = line.find(": warning:"); } const std::size_t endLinePos = line.rfind(":", endColumnPos-1); const std::size_t endNamePos = line.rfind(":", endLinePos - 1); const std::size_t endMsgTypePos = line.find(':', endColumnPos + 2); const std::size_t endErrorPos = line.rfind('[', std::string::npos); if (endLinePos==std::string::npos || endNamePos==std::string::npos || endMsgTypePos==std::string::npos || endErrorPos==std::string::npos) continue; const std::string lineNumString = line.substr(endNamePos + 1, endLinePos - endNamePos - 1); const std::string columnNumString = line.substr(endLinePos + 1, endColumnPos - endLinePos - 1); const std::string errorTypeString = line.substr(endColumnPos + 1, endMsgTypePos - endColumnPos - 1); const std::string messageString = line.substr(endMsgTypePos + 1, endErrorPos - endMsgTypePos - 1); const std::string errorString = line.substr(endErrorPos, line.length()); std::string fixedpath = Path::simplifyPath(line.substr(0, endNamePos)); const int64_t lineNumber = std::atol(lineNumString.c_str()); const int64_t column = std::atol(columnNumString.c_str()); fixedpath = Path::toNativeSeparators(fixedpath); ErrorMessage errmsg; errmsg.callStack.emplace_back(ErrorMessage::FileLocation(fixedpath, lineNumber, column)); errmsg.id = "clang-tidy-" + errorString.substr(1, errorString.length() - 2); if (errmsg.id.find("performance") != std::string::npos) errmsg.severity = Severity::SeverityType::performance; else if (errmsg.id.find("portability") != std::string::npos) errmsg.severity = Severity::SeverityType::portability; else if (errmsg.id.find("cert") != std::string::npos || errmsg.id.find("misc") != std::string::npos || errmsg.id.find("unused") != std::string::npos) errmsg.severity = Severity::SeverityType::warning; else errmsg.severity = Severity::SeverityType::style; errmsg.file0 = fixedpath; errmsg.setmsg(messageString); reportErr(errmsg); } } bool CppCheck::analyseWholeProgram() { bool errors = false; // Init CTU CTU::maxCtuDepth = mSettings.maxCtuDepth; // Analyse the tokens CTU::FileInfo ctu; for (const Check::FileInfo *fi : mFileInfo) { const CTU::FileInfo *fi2 = dynamic_cast(fi); if (fi2) { ctu.functionCalls.insert(ctu.functionCalls.end(), fi2->functionCalls.begin(), fi2->functionCalls.end()); ctu.nestedCalls.insert(ctu.nestedCalls.end(), fi2->nestedCalls.begin(), fi2->nestedCalls.end()); } } for (Check *check : Check::instances()) errors |= check->analyseWholeProgram(&ctu, mFileInfo, mSettings, *this); // TODO: ctu return errors && (mExitCode > 0); } void CppCheck::analyseWholeProgram(const std::string &buildDir, const std::map &files) { (void)files; if (buildDir.empty()) return; if (mSettings.isEnabled(Settings::UNUSED_FUNCTION)) CheckUnusedFunctions::analyseWholeProgram(this, buildDir); std::list fileInfoList; CTU::FileInfo ctuFileInfo; // Load all analyzer info data.. const std::string filesTxt(buildDir + "/files.txt"); std::ifstream fin(filesTxt); std::string filesTxtLine; while (std::getline(fin, filesTxtLine)) { const std::string::size_type firstColon = filesTxtLine.find(':'); if (firstColon == std::string::npos) continue; const std::string::size_type lastColon = filesTxtLine.rfind(':'); if (firstColon == lastColon) continue; const std::string xmlfile = buildDir + '/' + filesTxtLine.substr(0,firstColon); //const std::string sourcefile = filesTxtLine.substr(lastColon+1); tinyxml2::XMLDocument doc; const tinyxml2::XMLError error = doc.LoadFile(xmlfile.c_str()); if (error != tinyxml2::XML_SUCCESS) continue; const tinyxml2::XMLElement * const rootNode = doc.FirstChildElement(); if (rootNode == nullptr) continue; for (const tinyxml2::XMLElement *e = rootNode->FirstChildElement(); e; e = e->NextSiblingElement()) { if (std::strcmp(e->Name(), "FileInfo") != 0) continue; const char *checkClassAttr = e->Attribute("check"); if (!checkClassAttr) continue; if (std::strcmp(checkClassAttr, "ctu") == 0) { ctuFileInfo.loadFromXml(e); continue; } for (Check *check : Check::instances()) { if (checkClassAttr == check->name()) fileInfoList.push_back(check->loadFileInfoFromXml(e)); } } } // Set CTU max depth CTU::maxCtuDepth = mSettings.maxCtuDepth; // Analyse the tokens for (Check *check : Check::instances()) check->analyseWholeProgram(&ctuFileInfo, fileInfoList, mSettings, *this); for (Check::FileInfo *fi : fileInfoList) delete fi; } bool CppCheck::isUnusedFunctionCheckEnabled() const { return (mSettings.jobs == 1 && mSettings.isEnabled(Settings::UNUSED_FUNCTION)); }