/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2016 Intel Corporation. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qdir.h" #include "qstringlist.h" #include "qfile.h" #include "qsettings.h" #include "qlibraryinfo.h" #include "qscopedpointer.h" #ifdef QT_BUILD_QMAKE QT_BEGIN_NAMESPACE extern QString qmake_libraryInfoFile(); QT_END_NAMESPACE #else # include "qcoreapplication.h" #endif #ifdef Q_OS_DARWIN # include "private/qcore_mac_p.h" #endif #include "qconfig.cpp" #include "archdetect.cpp" QT_BEGIN_NAMESPACE extern void qDumpCPUFeatures(); // in qsimd.cpp #ifndef QT_NO_SETTINGS struct QLibrarySettings { QLibrarySettings(); void load(); QScopedPointer settings; #ifdef QT_BUILD_QMAKE bool haveDevicePaths; bool haveEffectiveSourcePaths; bool haveEffectivePaths; bool havePaths; #else bool reloadOnQAppAvailable; #endif }; Q_GLOBAL_STATIC(QLibrarySettings, qt_library_settings) class QLibraryInfoPrivate { public: static QSettings *findConfiguration(); #ifdef QT_BUILD_QMAKE static bool haveGroup(QLibraryInfo::PathGroup group) { QLibrarySettings *ls = qt_library_settings(); return ls ? (group == QLibraryInfo::EffectiveSourcePaths ? ls->haveEffectiveSourcePaths : group == QLibraryInfo::EffectivePaths ? ls->haveEffectivePaths : group == QLibraryInfo::DevicePaths ? ls->haveDevicePaths : ls->havePaths) : false; } #endif static QSettings *configuration() { QLibrarySettings *ls = qt_library_settings(); if (ls) { #ifndef QT_BUILD_QMAKE if (ls->reloadOnQAppAvailable && QCoreApplication::instance() != 0) ls->load(); #endif return ls->settings.data(); } else { return 0; } } }; static const char platformsSection[] = "Platforms"; QLibrarySettings::QLibrarySettings() { load(); } void QLibrarySettings::load() { // If we get any settings here, those won't change when the application shows up. settings.reset(QLibraryInfoPrivate::findConfiguration()); #ifndef QT_BUILD_QMAKE reloadOnQAppAvailable = (settings.data() == 0 && QCoreApplication::instance() == 0); bool haveDevicePaths; bool haveEffectivePaths; bool havePaths; #endif if (settings) { // This code needs to be in the regular library, as otherwise a qt.conf that // works for qmake would break things for dynamically built Qt tools. QStringList children = settings->childGroups(); haveDevicePaths = children.contains(QLatin1String("DevicePaths")); #ifdef QT_BUILD_QMAKE haveEffectiveSourcePaths = children.contains(QLatin1String("EffectiveSourcePaths")); #else // EffectiveSourcePaths is for the Qt build only, so needs no backwards compat trickery. bool haveEffectiveSourcePaths = false; #endif haveEffectivePaths = haveEffectiveSourcePaths || children.contains(QLatin1String("EffectivePaths")); // Backwards compat: an existing but empty file is claimed to contain the Paths section. havePaths = (!haveDevicePaths && !haveEffectivePaths && !children.contains(QLatin1String(platformsSection))) || children.contains(QLatin1String("Paths")); #ifndef QT_BUILD_QMAKE if (!havePaths) settings.reset(0); #else } else { haveDevicePaths = false; haveEffectiveSourcePaths = false; haveEffectivePaths = false; havePaths = false; #endif } } QSettings *QLibraryInfoPrivate::findConfiguration() { QString qtconfig = QStringLiteral(":/qt/etc/qt.conf"); if (QFile::exists(qtconfig)) return new QSettings(qtconfig, QSettings::IniFormat); #ifdef QT_BUILD_QMAKE qtconfig = qmake_libraryInfoFile(); if (QFile::exists(qtconfig)) return new QSettings(qtconfig, QSettings::IniFormat); #else #ifdef Q_OS_DARWIN CFBundleRef bundleRef = CFBundleGetMainBundle(); if (bundleRef) { QCFType urlRef = CFBundleCopyResourceURL(bundleRef, QCFString(QLatin1String("qt.conf")), 0, 0); if (urlRef) { QCFString path = CFURLCopyFileSystemPath(urlRef, kCFURLPOSIXPathStyle); qtconfig = QDir::cleanPath(path); if (QFile::exists(qtconfig)) return new QSettings(qtconfig, QSettings::IniFormat); } } #endif if (QCoreApplication::instance()) { QDir pwd(QCoreApplication::applicationDirPath()); qtconfig = pwd.filePath(QLatin1String("qt.conf")); if (QFile::exists(qtconfig)) return new QSettings(qtconfig, QSettings::IniFormat); } #endif return 0; //no luck } #endif // QT_NO_SETTINGS /*! \class QLibraryInfo \inmodule QtCore \brief The QLibraryInfo class provides information about the Qt library. Many pieces of information are established when Qt is configured and built. This class provides an abstraction for accessing that information. By using the static functions of this class, an application can obtain information about the instance of the Qt library which the application is using at run-time. You can also use a \c qt.conf file to override the hard-coded paths that are compiled into the Qt library. For more information, see the \l {Using qt.conf} documentation. \sa QSysInfo, {Using qt.conf} */ #ifndef QT_BUILD_QMAKE /*! \internal You cannot create a QLibraryInfo, instead only the static functions are available to query information. */ QLibraryInfo::QLibraryInfo() { } /*! Returns the person to whom this build of Qt is licensed. \sa licensedProducts() */ QString QLibraryInfo::licensee() { const char * volatile str = QT_CONFIGURE_LICENSEE; return QString::fromLocal8Bit(str); } /*! Returns the products that the license for this build of Qt has access to. \sa licensee() */ QString QLibraryInfo::licensedProducts() { const char * volatile str = QT_CONFIGURE_LICENSED_PRODUCTS; return QString::fromLatin1(str); } /*! \since 4.6 \deprecated This function used to return the installation date for this build of Qt, but now returns a constant date. */ #ifndef QT_NO_DATESTRING #if QT_DEPRECATED_SINCE(5, 5) QDate QLibraryInfo::buildDate() { return QDate::fromString(QString::fromLatin1(qt_configure_installation + 12), Qt::ISODate); } #endif #endif //QT_NO_DATESTRING #if defined(Q_CC_INTEL) // must be before GNU, Clang and MSVC because ICC/ICL claim to be them # ifdef __INTEL_CLANG_COMPILER # define ICC_COMPAT "Clang" # elif defined(__INTEL_MS_COMPAT_LEVEL) # define ICC_COMPAT "Microsoft" # elif defined(__GNUC__) # define ICC_COMPAT "GCC" # else # define ICC_COMPAT "no" # endif # if __INTEL_COMPILER == 1300 # define ICC_VERSION "13.0" # elif __INTEL_COMPILER == 1310 # define ICC_VERSION "13.1" # elif __INTEL_COMPILER == 1400 # define ICC_VERSION "14.0" # elif __INTEL_COMPILER == 1500 # define ICC_VERSION "15.0" # else # define ICC_VERSION QT_STRINGIFY(__INTEL_COMPILER) # endif # ifdef __INTEL_COMPILER_UPDATE # define COMPILER_STRING "Intel(R) C++ " ICC_VERSION "." QT_STRINGIFY(__INTEL_COMPILER_UPDATE) \ " build " QT_STRINGIFY(__INTEL_COMPILER_BUILD_DATE) " [" \ ICC_COMPAT " compatibility]" # else # define COMPILER_STRING "Intel(R) C++ " ICC_VERSION \ " build " QT_STRINGIFY(__INTEL_COMPILER_BUILD_DATE) " [" \ ICC_COMPAT " compatibility]" # endif #elif defined(Q_CC_CLANG) // must be before GNU, because clang claims to be GNU too # ifdef __apple_build_version__ // Apple clang has other version numbers # define COMPILER_STRING "Clang " __clang_version__ " (Apple)" # else # define COMPILER_STRING "Clang " __clang_version__ # endif #elif defined(Q_CC_GHS) # define COMPILER_STRING "GHS " QT_STRINGIFY(__GHS_VERSION_NUMBER) #elif defined(Q_CC_GNU) # define COMPILER_STRING "GCC " __VERSION__ #elif defined(Q_CC_MSVC) # if _MSC_VER < 1600 # define COMPILER_STRING "MSVC 2008" # elif _MSC_VER < 1700 # define COMPILER_STRING "MSVC 2010" # elif _MSC_VER < 1800 # define COMPILER_STRING "MSVC 2012" # elif _MSC_VER < 1900 # define COMPILER_STRING "MSVC 2013" # elif _MSC_VER < 2000 # define COMPILER_STRING "MSVC 2015" # else # define COMPILER_STRING "MSVC _MSC_VER " QT_STRINGIFY(_MSC_VER) # endif #else # define COMPILER_STRING "" #endif #ifdef QT_NO_DEBUG # define DEBUG_STRING " release" #else # define DEBUG_STRING " debug" #endif #ifdef QT_SHARED # define SHARED_STRING " shared (dynamic)" #else # define SHARED_STRING " static" #endif #define QT_BUILD_STR "Qt " QT_VERSION_STR " (" ARCH_FULL SHARED_STRING DEBUG_STRING " build; by " COMPILER_STRING ")" /*! Returns a string describing how this version of Qt was built. \internal \since 5.3 */ const char *QLibraryInfo::build() Q_DECL_NOTHROW { return QT_BUILD_STR; } /*! \since 5.0 Returns \c true if this build of Qt was built with debugging enabled, or false if it was built in release mode. */ bool QLibraryInfo::isDebugBuild() { #ifdef QT_DEBUG return true; #else return false; #endif } #ifndef QT_BOOTSTRAPPED /*! \since 5.8 Returns the version of the Qt library. \sa qVersion() */ QVersionNumber QLibraryInfo::version() Q_DECL_NOTHROW { return QVersionNumber(QT_VERSION_MAJOR, QT_VERSION_MINOR, QT_VERSION_PATCH); } #endif // QT_BOOTSTRAPPED #endif // QT_BUILD_QMAKE /* * To add a new entry in QLibrary::LibraryLocation, add it to the enum above the bootstrapped values and: * - add its relative path in the qtConfEntries[] array below * (the key is what appears in a qt.conf file) * - add a property name in qmake/property.cpp propList[] array * (it's used with qmake -query) * - add to qt_config.prf, qt_module.prf, qt_module_fwdpri.prf */ static const struct { char key[19], value[13]; } qtConfEntries[] = { { "Prefix", "." }, { "Documentation", "doc" }, // should be ${Data}/doc { "Headers", "include" }, { "Libraries", "lib" }, #ifdef Q_OS_WIN { "LibraryExecutables", "bin" }, #else { "LibraryExecutables", "libexec" }, // should be ${ArchData}/libexec #endif { "Binaries", "bin" }, { "Plugins", "plugins" }, // should be ${ArchData}/plugins { "Imports", "imports" }, // should be ${ArchData}/imports { "Qml2Imports", "qml" }, // should be ${ArchData}/qml { "ArchData", "." }, { "Data", "." }, { "Translations", "translations" }, // should be ${Data}/translations { "Examples", "examples" }, { "Tests", "tests" }, #ifdef QT_BUILD_QMAKE { "Sysroot", "" }, { "HostBinaries", "bin" }, { "HostLibraries", "lib" }, { "HostData", "." }, { "TargetSpec", "" }, { "HostSpec", "" }, { "HostPrefix", "" }, #endif }; /*! Returns the location specified by \a loc. */ QString QLibraryInfo::location(LibraryLocation loc) { #ifdef QT_BUILD_QMAKE // ends inside rawLocation ! QString ret = rawLocation(loc, FinalPaths); // Automatically prepend the sysroot to target paths if ((loc < SysrootPath || loc > LastHostPath) && QT_CONFIGURE_SYSROOTIFY_PREFIX) { QString sysroot = rawLocation(SysrootPath, FinalPaths); if (!sysroot.isEmpty() && ret.length() > 2 && ret.at(1) == QLatin1Char(':') && (ret.at(2) == QLatin1Char('/') || ret.at(2) == QLatin1Char('\\'))) ret.replace(0, 2, sysroot); // Strip out the drive on Windows targets else ret.prepend(sysroot); } return ret; } QString QLibraryInfo::rawLocation(LibraryLocation loc, PathGroup group) { #endif // QT_BUILD_QMAKE, started inside location ! QString ret; #ifdef QT_BUILD_QMAKE // Logic for choosing the right data source: if EffectivePaths are requested // and qt.conf with that section is present, use it, otherwise fall back to // FinalPaths. For FinalPaths, use qt.conf if present and contains not only // [EffectivePaths], otherwise fall back to builtins. // EffectiveSourcePaths falls back to EffectivePaths. // DevicePaths falls back to FinalPaths. PathGroup orig_group = group; if (!QLibraryInfoPrivate::haveGroup(group) && !(group == EffectiveSourcePaths && (group = EffectivePaths, QLibraryInfoPrivate::haveGroup(group))) && !((group == EffectivePaths || group == DevicePaths) && (group = FinalPaths, QLibraryInfoPrivate::haveGroup(group))) && (group = orig_group, true)) #elif !defined(QT_NO_SETTINGS) if (!QLibraryInfoPrivate::configuration()) #endif { const char * volatile path = 0; if (loc == PrefixPath) { path = #ifdef QT_BUILD_QMAKE (group != DevicePaths) ? QT_CONFIGURE_EXT_PREFIX_PATH : #endif QT_CONFIGURE_PREFIX_PATH; } else if (unsigned(loc) <= sizeof(qt_configure_str_offsets)/sizeof(qt_configure_str_offsets[0])) { path = qt_configure_strs + qt_configure_str_offsets[loc - 1]; #ifndef Q_OS_WIN // On Windows we use the registry } else if (loc == SettingsPath) { path = QT_CONFIGURE_SETTINGS_PATH; #endif #ifdef QT_BUILD_QMAKE } else if (loc == HostPrefixPath) { path = QT_CONFIGURE_HOST_PREFIX_PATH; #endif } if (path) ret = QString::fromLocal8Bit(path); #ifndef QT_NO_SETTINGS } else { QString key; QString defaultValue; if (unsigned(loc) < sizeof(qtConfEntries)/sizeof(qtConfEntries[0])) { key = QLatin1String(qtConfEntries[loc].key); defaultValue = QLatin1String(qtConfEntries[loc].value); } #ifndef Q_OS_WIN // On Windows we use the registry else if (loc == SettingsPath) { key = QLatin1String("Settings"); defaultValue = QLatin1String("."); } #endif if(!key.isNull()) { QSettings *config = QLibraryInfoPrivate::configuration(); config->beginGroup(QLatin1String( #ifdef QT_BUILD_QMAKE group == DevicePaths ? "DevicePaths" : group == EffectiveSourcePaths ? "EffectiveSourcePaths" : group == EffectivePaths ? "EffectivePaths" : #endif "Paths")); ret = config->value(key, defaultValue).toString(); #ifdef QT_BUILD_QMAKE if (ret.isEmpty()) { if (loc == HostPrefixPath) ret = config->value(QLatin1String(qtConfEntries[PrefixPath].key), QLatin1String(qtConfEntries[PrefixPath].value)).toString(); else if (loc == TargetSpecPath || loc == HostSpecPath) ret = QString::fromLocal8Bit(qt_configure_strs + qt_configure_str_offsets[loc - 1]); } #endif // expand environment variables in the form $(ENVVAR) int rep; QRegExp reg_var(QLatin1String("\\$\\(.*\\)")); reg_var.setMinimal(true); while((rep = reg_var.indexIn(ret)) != -1) { ret.replace(rep, reg_var.matchedLength(), QString::fromLocal8Bit(qgetenv(ret.mid(rep + 2, reg_var.matchedLength() - 3).toLatin1().constData()).constData())); } config->endGroup(); ret = QDir::fromNativeSeparators(ret); } #endif // QT_NO_SETTINGS } #ifdef QT_BUILD_QMAKE // The specs need to be returned verbatim. if (loc == TargetSpecPath || loc == HostSpecPath) return ret; #endif if (!ret.isEmpty() && QDir::isRelativePath(ret)) { QString baseDir; #ifdef QT_BUILD_QMAKE if (loc == HostPrefixPath || loc == PrefixPath || loc == SysrootPath) { // We make the prefix/sysroot path absolute to the executable's directory. // loc == PrefixPath while a sysroot is set would make no sense here. // loc == SysrootPath only makes sense if qmake lives inside the sysroot itself. baseDir = QFileInfo(qmake_libraryInfoFile()).absolutePath(); } else if (loc > SysrootPath && loc <= LastHostPath) { // We make any other host path absolute to the host prefix directory. baseDir = rawLocation(HostPrefixPath, group); } else { // we make any other path absolute to the prefix directory baseDir = rawLocation(PrefixPath, group); } #else if (loc == PrefixPath) { if (QCoreApplication::instance()) { #ifdef Q_OS_DARWIN CFBundleRef bundleRef = CFBundleGetMainBundle(); if (bundleRef) { QCFType urlRef = CFBundleCopyBundleURL(bundleRef); if (urlRef) { QCFString path = CFURLCopyFileSystemPath(urlRef, kCFURLPOSIXPathStyle); #ifdef Q_OS_OSX QString bundleContentsDir = QString(path) + QLatin1String("/Contents/"); if (QDir(bundleContentsDir).exists()) return QDir::cleanPath(bundleContentsDir + ret); #else return QDir::cleanPath(QString(path) + QLatin1Char('/') + ret); // iOS #endif // Q_OS_OSX } } #endif // Q_OS_DARWIN // We make the prefix path absolute to the executable's directory. baseDir = QCoreApplication::applicationDirPath(); } else { baseDir = QDir::currentPath(); } } else { // we make any other path absolute to the prefix directory baseDir = location(PrefixPath); } #endif // QT_BUILD_QMAKE ret = QDir::cleanPath(baseDir + QLatin1Char('/') + ret); } return ret; } /*! Returns additional arguments to the platform plugin matching \a platformName which can be specified as a string list using the key \c Arguments in a group called \c Platforms of the \c qt.conf file. sa {Using qt.conf} \internal \since 5.3 */ QStringList QLibraryInfo::platformPluginArguments(const QString &platformName) { #if !defined(QT_BUILD_QMAKE) && !defined(QT_NO_SETTINGS) QScopedPointer settings(QLibraryInfoPrivate::findConfiguration()); if (!settings.isNull()) { QString key = QLatin1String(platformsSection); key += QLatin1Char('/'); key += platformName; key += QLatin1String("Arguments"); return settings->value(key).toStringList(); } #endif // !QT_BUILD_QMAKE && !QT_NO_SETTINGS return QStringList(); } /*! \enum QLibraryInfo::LibraryLocation \keyword library location This enum type is used to specify a specific location specifier: \value PrefixPath The default prefix for all paths. \value DocumentationPath The location for documentation upon install. \value HeadersPath The location for all headers. \value LibrariesPath The location of installed libraries. \value LibraryExecutablesPath The location of installed executables required by libraries at runtime. \value BinariesPath The location of installed Qt binaries (tools and applications). \value PluginsPath The location of installed Qt plugins. \value ImportsPath The location of installed QML extensions to import (QML 1.x). \value Qml2ImportsPath The location of installed QML extensions to import (QML 2.x). \value ArchDataPath The location of general architecture-dependent Qt data. \value DataPath The location of general architecture-independent Qt data. \value TranslationsPath The location of translation information for Qt strings. \value ExamplesPath The location for examples upon install. \value TestsPath The location of installed Qt testcases. \value SettingsPath The location for Qt settings. Not applicable on Windows. \sa location() */ QT_END_NAMESPACE #if defined(Q_CC_GNU) && defined(ELF_INTERPRETER) # include # include #include "private/qcoreapplication_p.h" extern const char qt_core_interpreter[] __attribute__((section(".interp"))) = ELF_INTERPRETER; extern "C" void qt_core_boilerplate(); void qt_core_boilerplate() { printf("This is the QtCore library version " QT_BUILD_STR "\n" "Copyright (C) 2016 The Qt Company Ltd.\n" "Contact: http://www.qt.io/licensing/\n" "\n" "Installation prefix: %s\n" "Library path: %s\n" "Include path: %s\n", qt_configure_prefix_path_str + 12, qt_configure_strs + qt_configure_str_offsets[QT_PREPEND_NAMESPACE(QLibraryInfo)::LibrariesPath - 1], qt_configure_strs + qt_configure_str_offsets[QT_PREPEND_NAMESPACE(QLibraryInfo)::HeadersPath - 1]); QT_PREPEND_NAMESPACE(qDumpCPUFeatures)(); #ifdef QT_EVAL extern void qt_core_eval_init(QCoreApplicationPrivate::Type); qt_core_eval_init(QCoreApplicationPrivate::Tty); #endif exit(0); } #endif