/*
* 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);
}
}