/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2016 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 #include #include #include #include #include "checkthread.h" #include "erroritem.h" #include "threadresult.h" #include "cppcheck.h" static const char CLANG[] = "clang"; static const char CLANGTIDY[] = "clang-tidy"; CheckThread::CheckThread(ThreadResult &result) : mState(Ready), mResult(result), mCppcheck(result, true), mAnalyseWholeProgram(false) { //ctor } CheckThread::~CheckThread() { //dtor } void CheckThread::check(const Settings &settings) { mFiles.clear(); mCppcheck.settings() = settings; start(); } void CheckThread::analyseWholeProgram(const QStringList &files) { mFiles = files; mAnalyseWholeProgram = true; start(); } void CheckThread::run() { mState = Running; if (!mFiles.isEmpty() || mAnalyseWholeProgram) { mAnalyseWholeProgram = false; qDebug() << "Whole program analysis"; const std::string &buildDir = mCppcheck.settings().buildDir; if (!buildDir.empty()) { std::map files2; for (QString file : mFiles) files2[file.toStdString()] = 0; mCppcheck.analyseWholeProgram(buildDir, files2); } mFiles.clear(); emit done(); return; } const QString addonPath = getAddonPath(); QString file = mResult.getNextFile(); while (!file.isEmpty() && mState == Running) { qDebug() << "Checking file" << file; mCppcheck.check(file.toStdString()); runAddons(addonPath, nullptr, file); emit fileChecked(file); if (mState == Running) file = mResult.getNextFile(); } ImportProject::FileSettings fileSettings = mResult.getNextFileSettings(); while (!fileSettings.filename.empty() && mState == Running) { file = QString::fromStdString(fileSettings.filename); qDebug() << "Checking file" << file; mCppcheck.check(fileSettings); runAddons(addonPath, &fileSettings, QString::fromStdString(fileSettings.filename)); emit fileChecked(file); if (mState == Running) fileSettings = mResult.getNextFileSettings(); } if (mState == Running) mState = Ready; else mState = Stopped; emit done(); } void CheckThread::runAddons(const QString &addonPath, const ImportProject::FileSettings *fileSettings, const QString &fileName) { QString dumpFile; foreach (const QString addon, mAddons) { if (addon == CLANG || addon == CLANGTIDY) { if (!fileSettings) continue; if (!fileSettings->cfg.empty() && fileSettings->cfg.find("Debug") != std::string::npos) continue; QStringList args; for (std::list::const_iterator I = fileSettings->includePaths.begin(); I != fileSettings->includePaths.end(); ++I) args << ("-I" + QString::fromStdString(*I)); for (std::list::const_iterator i = fileSettings->systemIncludePaths.begin(); i != fileSettings->systemIncludePaths.end(); ++i) args << "-isystem" << QString::fromStdString(*i); foreach (QString D, QString::fromStdString(fileSettings->defines).split(";")) { args << ("-D" + D); } if (!mClangPath.isEmpty()) { QDir dir(mClangPath + "/../lib/clang"); foreach (QString ver, dir.entryList()) { QString includePath = dir.absolutePath() + '/' + ver + "/include"; if (ver[0] != '.' && QDir(includePath).exists()) { args << "-isystem" << includePath; break; } } } #ifdef Q_OS_WIN // To create compile_commands.json in windows see: // https://bitsmaker.gitlab.io/post/clang-tidy-from-vs2015/ foreach (QString s, mVsIncludePaths.split(";")) { if (!s.isEmpty()) { s.replace("\\", "/"); args << "-isystem" << s; } } args << "-U__STDC__" << "-fno-ms-compatibility"; #endif if (!fileSettings->standard.empty()) args << ("-std=" + QString::fromStdString(fileSettings->standard)); else if (!mVsIncludePaths.isEmpty() && fileName.endsWith(".cpp")) args << "-std=c++14"; QString analyzerInfoFile; const std::string &buildDir = mCppcheck.settings().buildDir; if (!buildDir.empty()) { analyzerInfoFile = QString::fromStdString(AnalyzerInformation::getAnalyzerInfoFile(buildDir, fileSettings->filename, fileSettings->cfg)); const QString cmd(mClangPath.isEmpty() ? QString("clang") : (mClangPath + "/clang.exe")); QStringList args2(args); args2.insert(0,"-E"); args2 << fileName; QProcess process; process.start(cmd,args2); process.waitForFinished(); const QByteArray &ba = process.readAllStandardOutput(); const quint16 chksum = qChecksum(ba.data(), ba.length()); QFile f1(analyzerInfoFile + '.' + addon + "-E"); if (f1.open(QIODevice::ReadOnly | QIODevice::Text)) { QTextStream in1(&f1); const quint16 oldchksum = in1.readAll().toInt(); if (oldchksum == chksum) { QFile f2(analyzerInfoFile + '.' + addon + "-results"); if (f2.open(QIODevice::ReadOnly | QIODevice::Text)) { QTextStream in2(&f2); parseClangErrors(fileName, in2.readAll()); continue; } } f1.close(); } f1.open(QIODevice::WriteOnly | QIODevice::Text); QTextStream out1(&f1); out1 << chksum; QFile::remove(analyzerInfoFile + '.' + addon + "-results"); } if (addon == CLANG) { args.insert(0,"--analyze"); args.insert(1, "-Xanalyzer"); args.insert(2, "-analyzer-output=text"); args << fileName; } else { args.insert(0,"-checks=*,-clang*,-llvm*"); args.insert(1, fileName); args.insert(2, "--"); } const QString cmd(mClangPath.isEmpty() ? addon : (mClangPath + '/' + addon + ".exe")); { QString debug(cmd.contains(" ") ? ('\"' + cmd + '\"') : cmd); foreach (QString arg, args) { if (arg.contains(" ")) debug += " \"" + arg + '\"'; else debug += ' ' + arg; } qDebug() << debug; if (!analyzerInfoFile.isEmpty()) { QFile f(analyzerInfoFile + '.' + addon + "-cmd"); if (f.open(QIODevice::WriteOnly | QIODevice::Text)) { QTextStream out(&f); out << debug; } } } QProcess process; process.start(cmd, args); process.waitForFinished(600*1000); const QString errout(addon == CLANG ? process.readAllStandardError() : process.readAllStandardOutput()); if (!analyzerInfoFile.isEmpty()) { QFile f(analyzerInfoFile + '.' + addon + "-results"); if (f.open(QIODevice::WriteOnly | QIODevice::Text)) { QTextStream out(&f); out << errout; } } parseClangErrors(fileName, errout); } else { QString a; if (QFileInfo(addonPath + '/' + addon + ".py").exists()) a = addonPath + '/' + addon + ".py"; else if (QFileInfo(addonPath + '/' + addon + '/' + addon + ".py").exists()) a = addonPath + '/' + addon + '/' + addon + ".py"; else continue; if (dumpFile.isEmpty()) { const std::string buildDir = mCppcheck.settings().buildDir; mCppcheck.settings().buildDir.clear(); mCppcheck.settings().dump = true; if (!buildDir.empty()) { mCppcheck.settings().dumpFile = AnalyzerInformation::getAnalyzerInfoFile(buildDir, fileName.toStdString(), fileSettings ? fileSettings->cfg : std::string()) + ".dump"; dumpFile = QString::fromStdString(mCppcheck.settings().dumpFile); } else { dumpFile = fileName + ".dump"; } if (fileSettings) mCppcheck.check(*fileSettings); else mCppcheck.check(fileName.toStdString()); mCppcheck.settings().dump = false; mCppcheck.settings().dumpFile.clear(); mCppcheck.settings().buildDir = buildDir; } QString cmd = "python " + a + ' ' + dumpFile; qDebug() << cmd; QProcess process; process.start(cmd); process.waitForFinished(); parseAddonErrors(process.readAllStandardError(), addon); } } } void CheckThread::stop() { mState = Stopping; mCppcheck.terminate(); } QString CheckThread::getAddonPath() const { if (QFileInfo(mDataDir + "/threadsafety.py").exists()) return mDataDir; else if (QDir(mDataDir + "/addons").exists()) return mDataDir + "/addons"; else if (mDataDir.endsWith("/cfg")) { if (QDir(mDataDir.mid(0,mDataDir.size()-3) + "addons").exists()) return mDataDir.mid(0,mDataDir.size()-3) + "addons"; } return QString(); } void CheckThread::parseAddonErrors(QString err, QString tool) { QTextStream in(&err, QIODevice::ReadOnly); while (!in.atEnd()) { QString line = in.readLine(); QRegExp r1("\\[([^:]+):([0-9]+)\\](.*)"); if (!r1.exactMatch(line)) continue; const std::string &filename = r1.cap(1).toStdString(); const int lineNumber = r1.cap(2).toInt(); std::string message, id; QRegExp r2("(.*)\\[([a-zA-Z0-9\\-\\._]+)\\]"); if (r2.exactMatch(r1.cap(3))) { message = r2.cap(1).toStdString(); id = tool.toStdString() + '-' + r2.cap(2).toStdString(); } else { message = r1.cap(3).toStdString(); id = tool.toStdString(); } std::list callstack; callstack.push_back(ErrorLogger::ErrorMessage::FileLocation(filename, lineNumber)); ErrorLogger::ErrorMessage errmsg(callstack, filename, Severity::style, message, id, false); mResult.reportErr(errmsg); } } void CheckThread::parseClangErrors(const QString &file0, QString err) { QList errorItems; ErrorItem errorItem; QRegExp r1("(.+):([0-9]+):[0-9]+: (note|warning|error|fatal error): (.*)"); QRegExp r2("(.*)\\[([a-zA-Z0-9\\-_\\.]+)\\]"); QTextStream in(&err, QIODevice::ReadOnly); while (!in.atEnd()) { QString line = in.readLine(); if (!r1.exactMatch(line)) continue; if (r1.cap(3) != "note") { errorItems.append(errorItem); errorItem = ErrorItem(); } errorItem.errorPath.append(QErrorPathItem()); errorItem.errorPath.last().file = r1.cap(1); errorItem.errorPath.last().line = r1.cap(2).toInt(); if (r1.cap(3) == "warning") errorItem.severity = Severity::SeverityType::warning; else if (r1.cap(3) == "error" || r1.cap(3) == "fatal error") errorItem.severity = Severity::SeverityType::error; QString message,id; if (r2.exactMatch(r1.cap(4))) { message = r2.cap(1); id = r2.cap(2); } else { message = r1.cap(4); id = CLANG; } if (errorItem.errorPath.size() == 1) { errorItem.message = message; errorItem.errorId = id; } errorItem.errorPath.last().info = message; } errorItems.append(errorItem); foreach (const ErrorItem &e, errorItems) { if (e.errorPath.isEmpty()) continue; std::list callstack; foreach (const QErrorPathItem &path, e.errorPath) { callstack.push_back(ErrorLogger::ErrorMessage::FileLocation(path.file.toStdString(), path.info.toStdString(), path.line)); } ErrorLogger::ErrorMessage errmsg(callstack, file0.toStdString(), errorItem.severity, errorItem.message.toStdString(), errorItem.errorId.toStdString(), false); mResult.reportErr(errmsg); } }