/* * Copyright (C) by Klaas Freitag * Copyright (C) by Daniel Molkentin * * 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; version 2 of the License. * * 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. */ #include "utility.h" #include "version.h" // Note: This file must compile without QtGui #include #include #include #include #include #include #include #include #include #include #include #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) #include #else #include #endif #ifdef Q_OS_UNIX #include #include #include #endif #include #if defined(Q_OS_WIN) #include "utility_win.cpp" #elif defined(Q_OS_MAC) #include "utility_mac.cpp" #else #include "utility_unix.cpp" #endif namespace OCC { bool Utility::writeRandomFile( const QString& fname, int size ) { int maxSize = 10*10*1024; qsrand(QDateTime::currentMSecsSinceEpoch()); if( size == -1 ) size = qrand() % maxSize; QString randString; for( int i = 0; i < size; i++ ) { int r = qrand() % 128; randString.append(QChar(r)); } QFile file(fname); if( file.open(QIODevice::WriteOnly | QIODevice::Text) ) { QTextStream out(&file); out << randString; // optional, as QFile destructor will already do it: file.close(); return true; } return false; } QString Utility::formatFingerprint( const QByteArray& fmhash, bool colonSeparated ) { QByteArray hash; int steps = fmhash.length()/2; for (int i = 0; i < steps; i++) { hash.append(fmhash[i*2]); hash.append(fmhash[i*2+1]); hash.append(' '); } QString fp = QString::fromLatin1( hash.trimmed() ); if (colonSeparated) { fp.replace(QChar(' '), QChar(':')); } return fp; } void Utility::setupFavLink(const QString &folder) { setupFavLink_private(folder); } QString Utility::octetsToString( qint64 octets ) { static const qint64 kb = 1024; static const qint64 mb = 1024 * kb; static const qint64 gb = 1024 * mb; static const qint64 tb = 1024 * gb; QString s; qreal value = octets; if (octets >= tb) { s = QCoreApplication::translate("Utility", "%L1 TiB"); value /= tb; } else if (octets >= gb) { s = QCoreApplication::translate("Utility", "%L1 GiB"); value /= gb; } else if (octets >= mb) { s = QCoreApplication::translate("Utility", "%L1 MiB"); value /= mb; } else if (octets >= kb) { s = QCoreApplication::translate("Utility", "%L1 KiB"); value /= kb; } else { s = QCoreApplication::translate("Utility", "%L1 B"); } return (value > 9.95) ? s.arg(qRound(value)) : s.arg(value, 0, 'g', 2); } // Qtified version of get_platforms() in csync_owncloud.c QString Utility::platform() { #if defined(Q_OS_WIN) return QLatin1String("Windows"); #elif defined(Q_OS_MAC) return QLatin1String("Macintosh"); #elif defined(Q_OS_LINUX) return QLatin1String("Linux"); #elif defined(__DragonFly__) // Q_OS_FREEBSD also defined return QLatin1String("DragonFlyBSD"); #elif defined(Q_OS_FREEBSD) || defined(Q_OS_FREEBSD_KERNEL) return QLatin1String("FreeBSD"); #elif defined(Q_OS_NETBSD) return QLatin1String("NetBSD"); #elif defined(Q_OS_OPENBSD) return QLatin1String("OpenBSD"); #elif defined(Q_OS_SOLARIS) return QLatin1String("Solaris"); #else return QLatin1String("Unknown OS"); #endif } QByteArray Utility::userAgentString() { return QString::fromLatin1("Mozilla/5.0 (%1) mirall/%2") .arg(Utility::platform()) .arg(QLatin1String(MIRALL_STRINGIFY(MIRALL_VERSION))) .toLatin1(); } bool Utility::hasLaunchOnStartup(const QString &appName) { return hasLaunchOnStartup_private(appName); } void Utility::setLaunchOnStartup(const QString &appName, const QString& guiName, bool enable) { setLaunchOnStartup_private(appName, guiName, enable); } qint64 Utility::freeDiskSpace(const QString &path, bool *ok) { #if defined(Q_OS_MAC) || defined(Q_OS_FREEBSD) || defined(Q_OS_FREEBSD_KERNEL) || defined(Q_OS_NETBSD) struct statvfs stat; statvfs(path.toUtf8().data(), &stat); return (qint64) stat.f_bavail * stat.f_frsize; #elif defined(Q_OS_UNIX) Q_UNUSED(ok) struct statvfs64 stat; statvfs64(path.toUtf8().data(), &stat); return (qint64) stat.f_bavail * stat.f_frsize; #elif defined(Q_OS_WIN) ULARGE_INTEGER freeBytes; freeBytes.QuadPart = 0L; if( !GetDiskFreeSpaceEx( reinterpret_cast(path.utf16()), &freeBytes, NULL, NULL ) ) { if (ok) *ok = false; } return freeBytes.QuadPart; #else if (ok) *ok = false; return 0; #endif } QString Utility::compactFormatDouble(double value, int prec, const QString& unit) { QLocale locale = QLocale::system(); QChar decPoint = locale.decimalPoint(); QString str = locale.toString(value, 'f', prec); while (str.endsWith('0') || str.endsWith(decPoint)) { if (str.endsWith(decPoint)) { str.chop(1); break; } str.chop(1); } if( !unit.isEmpty() ) str += (QLatin1Char(' ')+unit); return str; } QString Utility::toCSyncScheme(const QString &urlStr) { QUrl url( urlStr ); if( url.scheme() == QLatin1String("http") ) { url.setScheme( QLatin1String("owncloud") ); } else { // connect SSL! url.setScheme( QLatin1String("ownclouds") ); } return url.toString(); } bool Utility::doesSetContainPrefix(const QSet &l, const QString &p) { Q_FOREACH (const QString &setPath, l) { //qDebug() << Q_FUNC_INFO << p << setPath << setPath.startsWith(p); if (setPath.startsWith(p)) { return true; } } //qDebug() << "-> NOOOOO!!!" << p << l.count(); return false; } QString Utility::escape(const QString &in) { #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) return Qt::escape(in); #else return in.toHtmlEscaped(); #endif } #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) // In Qt 4, QThread::sleep functions are protected. // This is a hack to make them visible in this namespace. struct QThread : ::QThread { using ::QThread::sleep; using ::QThread::usleep; }; #endif void Utility::sleep(int sec) { QThread::sleep(sec); } void Utility::usleep(int usec) { QThread::usleep(usec); } bool Utility::fsCasePreserving() { bool re = false; if( isWindows() || isMac() ) { re = true; } else { static bool isTest = qgetenv("OWNCLOUD_TEST_CASE_PRESERVING").toInt(); re = isTest; } return re; } QDateTime Utility::qDateTimeFromTime_t(qint64 t) { return QDateTime::fromMSecsSinceEpoch(t * 1000); } qint64 Utility::qDateTimeToTime_t(const QDateTime& t) { return t.toMSecsSinceEpoch() / 1000; } //TODO change to initializers list when possible. static QList > timeMapping = QList >() << QPair("%1 years",86400*365) << QPair("%1 months",86400*30) << QPair("%1 days",86400) << QPair("%1h",3600) << QPair("%1m",60) << QPair("%1s",1); QString Utility::timeToDescriptiveString(quint64 msecs, quint8 precision, QString separator, bool specific) { return timeToDescriptiveString( timeMapping , msecs, precision, separator, specific); } QString Utility::timeToDescriptiveString(QList > &timeMapping, quint64 msecs, quint8 precision, QString separator, bool specific) { quint64 secs = msecs / 1000; QString retStr = QString(timeMapping.last().first).arg(0); // default value in case theres no actual time in msecs. QList > values; bool timeStartFound = false; for(QList >::Iterator itr = timeMapping.begin(); itr != timeMapping.end() && precision > 0; itr++) { quint64 result = secs / itr->second; if(!timeStartFound) { if(result == 0 ) { continue; } retStr = ""; timeStartFound= true; } secs -= result * itr->second; values.append(QPair(itr->first,result)); precision--; } for(QList >::Iterator itr = values.begin(); itr < values.end(); itr++) { retStr = retStr.append((specific || itr == values.end()-1) ? itr->first : "%1").arg(itr->second, (itr == values.begin() ? 1 :2 ), 10, QChar('0')); if(itr < values.end()-1) { retStr.append(separator); } } return retStr; } bool Utility::hasDarkSystray() { return hasDarkSystray_private(); } bool Utility::isWindows() { #ifdef Q_OS_WIN return true; #else return false; #endif } bool Utility::isMac() { #ifdef Q_OS_MAC return true; #else return false; #endif } bool Utility::isUnix() { #ifdef Q_OS_UNIX return true; #else return false; #endif } bool Utility::isLinux() { #if defined(Q_OS_LINUX) return true; #else return false; #endif } bool Utility::isBSD() { #if defined(Q_OS_FREEBSD) || defined(Q_OS_NETBSD) return true; #else return false; #endif } void Utility::crash() { volatile int* a = (int*)(NULL); *a = 1; } static const char STOPWATCH_END_TAG[] = "_STOPWATCH_END"; void Utility::StopWatch::start() { _startTime = QDateTime::currentDateTime(); _timer.start(); } quint64 Utility::StopWatch::stop() { addLapTime(QLatin1String(STOPWATCH_END_TAG)); quint64 duration = _timer.elapsed(); _timer.invalidate(); return duration; } void Utility::StopWatch::reset() { _timer.invalidate(); _startTime.setMSecsSinceEpoch(0); _lapTimes.clear(); } quint64 Utility::StopWatch::addLapTime( const QString& lapName ) { if( !_timer.isValid() ) { start(); } quint64 re = _timer.elapsed(); _lapTimes[lapName] = re; return re; } QDateTime Utility::StopWatch::startTime() const { return _startTime; } QDateTime Utility::StopWatch::timeOfLap( const QString& lapName ) const { quint64 t = durationOfLap(lapName); if( t ) { QDateTime re(_startTime); return re.addMSecs(t); } return QDateTime(); } quint64 Utility::StopWatch::durationOfLap( const QString& lapName ) const { return _lapTimes.value(lapName, 0); } } // namespace OCC