/* $Id: VBoxGlobal.cpp 43127 2012-08-30 19:26:29Z vboxsync $ */ /** @file * VBox Qt GUI - VBoxGlobal class implementation. */ /* * Copyright (C) 2006-2011 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /* Qt includes: */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_WIN # include #endif /* Q_WS_WIN */ #ifdef Q_WS_X11 # include # include # include #endif /* Q_WS_X11 */ #ifdef VBOX_GUI_WITH_PIDFILE # include #endif /* VBOX_GUI_WITH_PIDFILE */ /* GUI includes: */ #include "VBoxGlobal.h" #include "VBoxUtils.h" #include "UISelectorWindow.h" #include "UIMessageCenter.h" #include "QIMessageBox.h" #include "QIDialogButtonBox.h" #include "UIIconPool.h" #include "UIActionPoolSelector.h" #include "UIActionPoolRuntime.h" #include "UIExtraDataEventHandler.h" #include "QIFileDialog.h" #include "UINetworkManager.h" #include "UIUpdateManager.h" #include "UIMachine.h" #include "UISession.h" #include "UIConverter.h" #ifdef Q_WS_X11 # include "UIHotKeyEditor.h" # ifndef VBOX_OSE # include "VBoxLicenseViewer.h" # endif /* VBOX_OSE */ # include "VBoxX11Helper.h" #endif /* Q_WS_X11 */ #ifdef Q_WS_MAC # include "VBoxUtils-darwin.h" # include "UIMachineWindowFullscreen.h" # include "UIMachineWindowSeamless.h" #endif /* Q_WS_MAC */ #ifdef VBOX_WITH_VIDEOHWACCEL # include "VBoxFBOverlay.h" #endif /* VBOX_WITH_VIDEOHWACCEL */ #ifdef VBOX_WITH_REGISTRATION # include "UIRegistrationWzd.h" #endif /* VBOX_WITH_REGISTRATION */ #ifdef VBOX_GUI_WITH_SYSTRAY #include #if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2) #define HOSTSUFF_EXE ".exe" #else /* !RT_OS_WINDOWS */ #define HOSTSUFF_EXE "" #endif /* !RT_OS_WINDOWS */ #endif /* VBOX_GUI_WITH_SYSTRAY */ /* COM includes: */ #include "CMachine.h" #include "CSystemProperties.h" #include "CUSBDevice.h" #include "CUSBDeviceFilter.h" #include "CBIOSSettings.h" #include "CVRDEServer.h" #include "CStorageController.h" #include "CMediumAttachment.h" #include "CAudioAdapter.h" #include "CNetworkAdapter.h" #include "CSerialPort.h" #include "CParallelPort.h" #include "CUSBController.h" #include "CHostUSBDevice.h" #include "CMediumFormat.h" #include "CSharedFolder.h" /* Other VBox includes: */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_X11 #include #endif /* Q_WS_X11 */ /* External includes: */ #include #ifdef Q_WS_WIN #include "shlobj.h" #endif /* Q_WS_WIN */ #ifdef Q_WS_X11 #undef BOOL /* typedef CARD8 BOOL in Xmd.h conflicts with #define BOOL PRBool * in COMDefs.h. A better fix would be to isolate X11-specific * stuff by placing XX* helpers below to a separate source file. */ #include #include #include #include #include #define BOOL PRBool #endif /* Q_WS_X11 */ //#define VBOX_WITH_FULL_DETAILS_REPORT /* hidden for now */ //#warning "port me: check this" /// @todo bird: Use (U)INT_PTR, (U)LONG_PTR, DWORD_PTR, or (u)intptr_t. #if defined(Q_OS_WIN64) typedef __int64 Q_LONG; /* word up to 64 bit signed */ typedef unsigned __int64 Q_ULONG; /* word up to 64 bit unsigned */ #else typedef long Q_LONG; /* word up to 64 bit signed */ typedef unsigned long Q_ULONG; /* word up to 64 bit unsigned */ #endif // VBoxMediaEnumEvent ///////////////////////////////////////////////////////////////////////////// class VBoxMediaEnumEvent : public QEvent { public: /** Constructs a regular enum event */ VBoxMediaEnumEvent (const UIMedium &aMedium, const VBoxMediaList::iterator &aIterator) : QEvent ((QEvent::Type) MediaEnumEventType) , mMedium (aMedium), mIterator (aIterator), mLast (false) {} /** Constructs the last enum event */ VBoxMediaEnumEvent (const VBoxMediaList::iterator &aIterator) : QEvent ((QEvent::Type) MediaEnumEventType) , mIterator (aIterator), mLast (true) {} /** Last enumerated medium (not valid when #last is true) */ const UIMedium mMedium; /* Iterator which points to the corresponding item in the GUI thread: */ const VBoxMediaList::iterator mIterator; /** Whether this is the last event for the given enumeration or not */ const bool mLast; }; // VBoxGlobal //////////////////////////////////////////////////////////////////////////////// static bool sVBoxGlobalInited = false; static bool sVBoxGlobalInCleanup = false; /** @internal * * Special routine to do VBoxGlobal cleanup when the application is being * terminated. It is called before some essential Qt functionality (for * instance, QThread) becomes unavailable, allowing us to use it from * VBoxGlobal::cleanup() if necessary. */ static void vboxGlobalCleanup() { Assert (!sVBoxGlobalInCleanup); sVBoxGlobalInCleanup = true; vboxGlobal().cleanup(); } /** @internal * * Determines the rendering mode from the argument. Sets the appropriate * default rendering mode if the argument is NULL. */ static RenderMode vboxGetRenderMode (const char *aModeStr) { RenderMode mode = InvalidRenderMode; #if defined (Q_WS_MAC) && defined (VBOX_GUI_USE_QUARTZ2D) mode = Quartz2DMode; # ifdef RT_ARCH_X86 /* Quartz2DMode doesn't refresh correctly on 32-bit Snow Leopard, use image mode. */ // char szRelease[80]; // if ( RT_SUCCESS (RTSystemQueryOSInfo (RTSYSOSINFO_RELEASE, szRelease, sizeof (szRelease))) // && !strncmp (szRelease, "10.", 3)) // mode = QImageMode; # endif #elif (defined (Q_WS_WIN32) || defined (Q_WS_PM) || defined (Q_WS_X11)) && defined (VBOX_GUI_USE_QIMAGE) mode = QImageMode; #elif defined (Q_WS_X11) && defined (VBOX_GUI_USE_SDL) mode = SDLMode; #elif defined (VBOX_GUI_USE_QIMAGE) mode = QImageMode; #else # error "Cannot determine the default render mode!" #endif if (aModeStr) { if (0) ; #if defined (VBOX_GUI_USE_QIMAGE) else if (::strcmp (aModeStr, "image") == 0) mode = QImageMode; #endif #if defined (VBOX_GUI_USE_SDL) else if (::strcmp (aModeStr, "sdl") == 0) mode = SDLMode; #endif #if defined (VBOX_GUI_USE_DDRAW) else if (::strcmp (aModeStr, "ddraw") == 0) mode = DDRAWMode; #endif #if defined (VBOX_GUI_USE_QUARTZ2D) else if (::strcmp (aModeStr, "quartz2d") == 0) mode = Quartz2DMode; #endif #if defined (VBOX_GUI_USE_QGLFB) else if (::strcmp (aModeStr, "qgl") == 0) mode = QGLMode; #endif //#if defined (VBOX_GUI_USE_QGL) // else if (::strcmp (aModeStr, "qgloverlay") == 0) // mode = QGLOverlayMode; //#endif } return mode; } /** @class VBoxGlobal * * The VBoxGlobal class encapsulates the global VirtualBox data. * * There is only one instance of this class per VirtualBox application, * the reference to it is returned by the static instance() method, or by * the global vboxGlobal() function, that is just an inlined shortcut. */ VBoxGlobal::VBoxGlobal() : mValid (false) , mSelectorWnd (NULL) , m_pVirtualMachine(0) , mMainWindow (NULL) #ifdef VBOX_WITH_REGISTRATION , mRegDlg (NULL) #endif #ifdef VBOX_GUI_WITH_SYSTRAY , mIsTrayMenu (false) , mIncreasedWindowCounter (false) #endif , mMediaEnumThread (NULL) , mIsKWinManaged (false) , mDisablePatm(false) , mDisableCsam(false) , mRecompileSupervisor(false) , mRecompileUser(false) , mWarpPct(100) , mVerString("1.0") , m3DAvailable(false) , mSettingsPwSet(false) { } // // Public members ///////////////////////////////////////////////////////////////////////////// /** * Returns a reference to the global VirtualBox data, managed by this class. * * The main() function of the VBox GUI must call this function soon after * creating a QApplication instance but before opening any of the main windows * (to let the VBoxGlobal initialization procedure use various Qt facilities), * and continue execution only when the isValid() method of the returned * instancereturns true, i.e. do something like: * * @code * if ( !VBoxGlobal::instance().isValid() ) * return 1; * @endcode * or * @code * if ( !vboxGlobal().isValid() ) * return 1; * @endcode * * @note Some VBoxGlobal methods can be used on a partially constructed * VBoxGlobal instance, i.e. from constructors and methods called * from the VBoxGlobal::init() method, which obtain the instance * using this instance() call or the ::vboxGlobal() function. Currently, such * methods are: * #vmStateText, #vmTypeIcon, #vmTypeText, #vmTypeTextList, #vmTypeFromText. * * @see ::vboxGlobal */ VBoxGlobal &VBoxGlobal::instance() { static VBoxGlobal vboxGlobal_instance; if (!sVBoxGlobalInited) { /* check that a QApplication instance is created */ if (qApp) { sVBoxGlobalInited = true; vboxGlobal_instance.init(); /* add our cleanup handler to the list of Qt post routines */ qAddPostRoutine (vboxGlobalCleanup); } else AssertMsgFailed (("Must construct a QApplication first!")); } return vboxGlobal_instance; } VBoxGlobal::~VBoxGlobal() { qDeleteAll (mOsTypeIcons); } /* static */ QString VBoxGlobal::qtRTVersionString() { return QString::fromLatin1 (qVersion()); } /* static */ uint VBoxGlobal::qtRTVersion() { QString rt_ver_str = VBoxGlobal::qtRTVersionString(); return (rt_ver_str.section ('.', 0, 0).toInt() << 16) + (rt_ver_str.section ('.', 1, 1).toInt() << 8) + rt_ver_str.section ('.', 2, 2).toInt(); } /* static */ QString VBoxGlobal::qtCTVersionString() { return QString::fromLatin1 (QT_VERSION_STR); } /* static */ uint VBoxGlobal::qtCTVersion() { QString ct_ver_str = VBoxGlobal::qtCTVersionString(); return (ct_ver_str.section ('.', 0, 0).toInt() << 16) + (ct_ver_str.section ('.', 1, 1).toInt() << 8) + ct_ver_str.section ('.', 2, 2).toInt(); } QString VBoxGlobal::vboxVersionString() const { return mVBox.GetVersion(); } QString VBoxGlobal::vboxVersionStringNormalized() const { return mVBox.GetVersionNormalized(); } bool VBoxGlobal::isBeta() const { return mVBox.GetVersion().contains("BETA", Qt::CaseInsensitive); } /** * Sets the new global settings and saves them to the VirtualBox server. */ bool VBoxGlobal::setSettings (VBoxGlobalSettings &gs) { gs.save (mVBox); if (!mVBox.isOk()) { msgCenter().cannotSaveGlobalConfig (mVBox); return false; } /* We don't assign gs to our gset member here, because VBoxCallback * will update gset as necessary when new settings are successfully * sent to the VirtualBox server by gs.save(). */ return true; } /** * Returns a reference to the main VBox VM Selector window. * The reference is valid until application termination. * * There is only one such a window per VirtualBox application. */ UISelectorWindow &VBoxGlobal::selectorWnd() { AssertMsg (!vboxGlobal().isVMConsoleProcess(), ("Must NOT be a VM console process")); Assert (mValid); if (!mSelectorWnd) { /* * We pass the address of mSelectorWnd to the constructor to let it be * initialized right after the constructor is called. It is necessary * to avoid recursion, since this method may be (and will be) called * from the below constructor or from constructors/methods it calls. */ UISelectorWindow *w = new UISelectorWindow (&mSelectorWnd, 0); Assert (w == mSelectorWnd); NOREF(w); } return *mSelectorWnd; } bool VBoxGlobal::startMachine(const QString &strMachineId) { /* Some restrictions: */ AssertMsg(mValid, ("VBoxGlobal is invalid")); AssertMsg(!m_pVirtualMachine, ("Machine already started")); /* Create VM session: */ CSession session = vboxGlobal().openSession(strMachineId, KLockType_VM); if (session.isNull()) return false; /* Start virtual machine: */ UIMachine *pVirtualMachine = new UIMachine(&m_pVirtualMachine, session); Assert(pVirtualMachine == m_pVirtualMachine); Q_UNUSED(pVirtualMachine); return true; } UIMachine* VBoxGlobal::virtualMachine() { return m_pVirtualMachine; } QWidget* VBoxGlobal::vmWindow() { if (isVMConsoleProcess() && m_pVirtualMachine) return m_pVirtualMachine->mainWindow(); return 0; } #ifdef VBOX_GUI_WITH_PIDFILE void VBoxGlobal::createPidfile() { if (!m_strPidfile.isEmpty()) { qint64 pid = qApp->applicationPid(); QFile file(m_strPidfile); if (file.open(QIODevice::WriteOnly | QIODevice::Truncate)) { QTextStream out(&file); out << pid << endl; } else LogRel(("Failed to create pid file %s\n", m_strPidfile.toUtf8().constData())); } } void VBoxGlobal::deletePidfile() { if ( !m_strPidfile.isEmpty() && QFile::exists(m_strPidfile)) QFile::remove(m_strPidfile); } #endif bool VBoxGlobal::brandingIsActive (bool aForce /* = false*/) { if (aForce) return true; if (mBrandingConfig.isEmpty()) { mBrandingConfig = QDir(QApplication::applicationDirPath()).absolutePath(); mBrandingConfig += "/custom/custom.ini"; } return QFile::exists (mBrandingConfig); } /** * Gets a value from the custom .ini file */ QString VBoxGlobal::brandingGetKey (QString aKey) { QSettings s(mBrandingConfig, QSettings::IniFormat); return s.value(QString("%1").arg(aKey)).toString(); } #ifdef VBOX_GUI_WITH_SYSTRAY /** * Returns true if the current instance a systray menu only (started with * "-systray" parameter). */ bool VBoxGlobal::isTrayMenu() const { return mIsTrayMenu; } void VBoxGlobal::setTrayMenu(bool aIsTrayMenu) { mIsTrayMenu = aIsTrayMenu; } /** * Spawns a new selector window (process). */ void VBoxGlobal::trayIconShowSelector() { /* Get the path to the executable. */ char path[RTPATH_MAX]; RTPathAppPrivateArch(path, RTPATH_MAX); size_t sz = strlen(path); path[sz++] = RTPATH_DELIMITER; path[sz] = 0; char *cmd = path + sz; sz = RTPATH_MAX - sz; int rc = 0; const char VirtualBox_exe[] = "VirtualBox" HOSTSUFF_EXE; Assert(sz >= sizeof(VirtualBox_exe)); strcpy(cmd, VirtualBox_exe); const char * args[] = {path, 0 }; rc = RTProcCreate(path, args, RTENV_DEFAULT, RTPROC_FLAGS_DETACHED, NULL); if (RT_FAILURE(rc)) LogRel(("Systray: Failed to start new selector window! Path=%s, rc=%Rrc\n", path, rc)); } /** * Tries to install the tray icon using the current instance (singleton). * Returns true if this instance is the tray icon, false if not. */ bool VBoxGlobal::trayIconInstall() { int rc = 0; QString strTrayWinID = mVBox.GetExtraData(GUI_TrayIconWinID); if (false == strTrayWinID.isEmpty()) { /* Check if current tray icon is alive by writing some bogus value. */ mVBox.SetExtraData(GUI_TrayIconWinID, "0"); if (mVBox.isOk()) { /* Current tray icon died - clean up. */ mVBox.SetExtraData(GUI_TrayIconWinID, NULL); strTrayWinID.clear(); } } /* Is there already a tray icon or is tray icon not active? */ if ( (mIsTrayMenu == false) && (vboxGlobal().settings().trayIconEnabled()) && (QSystemTrayIcon::isSystemTrayAvailable()) && (strTrayWinID.isEmpty())) { /* Get the path to the executable. */ char path[RTPATH_MAX]; RTPathAppPrivateArch(path, RTPATH_MAX); size_t sz = strlen(path); path[sz++] = RTPATH_DELIMITER; path[sz] = 0; char *cmd = path + sz; sz = RTPATH_MAX - sz; const char VirtualBox_exe[] = "VirtualBox" HOSTSUFF_EXE; Assert(sz >= sizeof(VirtualBox_exe)); strcpy(cmd, VirtualBox_exe); const char * args[] = {path, "-systray", 0 }; rc = RTProcCreate(path, args, RTENV_DEFAULT, RTPROC_FLAGS_DETACHED, NULL); if (RT_FAILURE(rc)) { LogRel(("Systray: Failed to start systray window! Path=%s, rc=%Rrc\n", path, rc)); return false; } } if (mIsTrayMenu) { // Use this selector for displaying the tray icon mVBox.SetExtraData(GUI_TrayIconWinID, QString("%1").arg((qulonglong)vboxGlobal().mainWindow()->winId())); /* The first process which can grab this "mutex" will win -> * It will be the tray icon menu then. */ if (mVBox.isOk()) { emit sigTrayIconShow(true); return true; } } return false; } #endif #ifdef Q_WS_X11 QList XGetDesktopList() { /* Prepare empty resulting list: */ QList result; /* Get current display: */ Display* pDisplay = QX11Info::display(); /* If it's a Xinerama desktop: */ if (XineramaIsActive(pDisplay)) { /* Reading Xinerama data: */ int iScreens = 0; XineramaScreenInfo *pScreensData = XineramaQueryScreens(pDisplay, &iScreens); /* Fill resulting list: */ for (int i = 0; i < iScreens; ++ i) result << QRect(pScreensData[i].x_org, pScreensData[i].y_org, pScreensData[i].width, pScreensData[i].height); /* Free screens data: */ XFree(pScreensData); } /* Return resulting list: */ return result; } QList XGetWindowIDList() { /* Get current display: */ Display *pDisplay = QX11Info::display(); /* Get virtual desktop window: */ Window window = QX11Info::appRootWindow(); /* Get 'client list' atom: */ Atom propNameAtom = XInternAtom(pDisplay, "_NET_CLIENT_LIST", True /* only if exists */); /* Prepare empty resulting list: */ QList result; /* If atom does not exists return empty list: */ if (propNameAtom == None) return result; /* Get atom value: */ Atom realAtomType = None; int iRealFormat = 0; unsigned long uItemsCount = 0; unsigned long uBytesAfter = 0; unsigned char *pData = 0; int rc = XGetWindowProperty(pDisplay, window, propNameAtom, 0, 0x7fffffff /*LONG_MAX*/, False /* delete */, XA_WINDOW, &realAtomType, &iRealFormat, &uItemsCount, &uBytesAfter, &pData); /* If get property is failed return empty list: */ if (rc != Success) return result; /* Fill resulting list with win ids: */ Window *pWindowData = reinterpret_cast(pData); for (ulong i = 0; i < uItemsCount; ++ i) result << pWindowData[i]; /* Releasing resources: */ XFree(pData); /* Return resulting list: */ return result; } QList XGetStrut(Window window) { /* Get current display: */ Display *pDisplay = QX11Info::display(); /* Get 'strut' atom: */ Atom propNameAtom = XInternAtom(pDisplay, "_NET_WM_STRUT_PARTIAL", True /* only if exists */); /* Prepare empty resulting list: */ QList result; /* If atom does not exists return empty list: */ if (propNameAtom == None) return result; /* Get atom value: */ Atom realAtomType = None; int iRealFormat = 0; ulong uItemsCount = 0; ulong uBytesAfter = 0; unsigned char *pData = 0; int rc = XGetWindowProperty(pDisplay, window, propNameAtom, 0, LONG_MAX, False /* delete */, XA_CARDINAL, &realAtomType, &iRealFormat, &uItemsCount, &uBytesAfter, &pData); /* If get property is failed return empty list: */ if (rc != Success) return result; /* Fill resulting list with strut shifts: */ ulong *pStrutsData = reinterpret_cast(pData); for (ulong i = 0; i < uItemsCount; ++ i) result << pStrutsData[i]; /* Releasing resources: */ XFree(pData); /* Return resulting list: */ return result; } #endif /* ifdef Q_WS_X11 */ const QRect VBoxGlobal::availableGeometry(int iScreen) const { /* Prepare empty result: */ QRect result; #ifdef Q_WS_X11 /* Get current display: */ Display* pDisplay = QX11Info::display(); /* Get current application desktop: */ QDesktopWidget *pDesktopWidget = QApplication::desktop(); /* If it's a virtual desktop: */ if (pDesktopWidget->isVirtualDesktop()) { /* If it's a Xinerama desktop: */ if (XineramaIsActive(pDisplay)) { /* Get desktops list: */ QList desktops = XGetDesktopList(); /* Combine to get full virtual region: */ QRegion virtualRegion; foreach (QRect desktop, desktops) virtualRegion += desktop; virtualRegion = virtualRegion.boundingRect(); /* Remember initial virtual desktop: */ QRect virtualDesktop = virtualRegion.boundingRect(); //AssertMsgFailed(("LOG... Virtual desktop is: %dx%dx%dx%d\n", virtualDesktop.x(), virtualDesktop.y(), // virtualDesktop.width(), virtualDesktop.height())); /* Set available geometry to screen geometry initially: */ result = desktops[iScreen]; /* Feat available geometry of virtual desktop to respect all the struts: */ QList list = XGetWindowIDList(); for (int i = 0; i < list.size(); ++ i) { /* Get window: */ Window wid = list[i]; QList struts = XGetStrut(wid); /* If window has strut: */ if (struts.size()) { ulong uLeftShift = struts[0]; ulong uLeftFromY = struts[4]; ulong uLeftToY = struts[5]; ulong uRightShift = struts[1]; ulong uRightFromY = struts[6]; ulong uRightToY = struts[7]; ulong uTopShift = struts[2]; ulong uTopFromX = struts[8]; ulong uTopToX = struts[9]; ulong uBottomShift = struts[3]; ulong uBottomFromX = struts[10]; ulong uBottomToX = struts[11]; if (uLeftShift) { QRect sr(QPoint(0, uLeftFromY), QSize(uLeftShift, uLeftToY - uLeftFromY + 1)); //AssertMsgFailed(("LOG... Subtract left strut: top-left: %dx%d, size: %dx%d\n", sr.x(), sr.y(), sr.width(), sr.height())); virtualRegion -= sr; } if (uRightShift) { QRect sr(QPoint(virtualDesktop.x() + virtualDesktop.width() - uRightShift, uRightFromY), QSize(virtualDesktop.x() + virtualDesktop.width(), uRightToY - uRightFromY + 1)); //AssertMsgFailed(("LOG... Subtract right strut: top-left: %dx%d, size: %dx%d\n", sr.x(), sr.y(), sr.width(), sr.height())); virtualRegion -= sr; } if (uTopShift) { QRect sr(QPoint(uTopFromX, 0), QSize(uTopToX - uTopFromX + 1, uTopShift)); //AssertMsgFailed(("LOG... Subtract top strut: top-left: %dx%d, size: %dx%d\n", sr.x(), sr.y(), sr.width(), sr.height())); virtualRegion -= sr; } if (uBottomShift) { QRect sr(QPoint(uBottomFromX, virtualDesktop.y() + virtualDesktop.height() - uBottomShift), QSize(uBottomToX - uBottomFromX + 1, uBottomShift)); //AssertMsgFailed(("LOG... Subtract bottom strut: top-left: %dx%d, size: %dx%d\n", sr.x(), sr.y(), sr.width(), sr.height())); virtualRegion -= sr; } } } /* Get final available geometry: */ result = (virtualRegion & result).boundingRect(); } } /* If result is still NULL: */ if (result.isNull()) { /* Use QT default functionality: */ result = pDesktopWidget->availableGeometry(iScreen); } //AssertMsgFailed(("LOG... Final geometry: %dx%dx%dx%d\n", result.x(), result.y(), result.width(), result.height())); #else /* ifdef Q_WS_X11 */ result = QApplication::desktop()->availableGeometry(iScreen); #endif /* ifndef Q_WS_X11 */ return result; } /** * Returns the list of few guest OS types, queried from * IVirtualBox corresponding to every family id. */ QList VBoxGlobal::vmGuestOSFamilyList() const { QList result; for (int i = 0 ; i < mFamilyIDs.size(); ++ i) result << mTypes [i][0]; return result; } /** * Returns the list of all guest OS types, queried from * IVirtualBox corresponding to passed family id. */ QList VBoxGlobal::vmGuestOSTypeList (const QString &aFamilyId) const { AssertMsg (mFamilyIDs.contains (aFamilyId), ("Family ID incorrect: '%s'.", aFamilyId.toLatin1().constData())); return mFamilyIDs.contains (aFamilyId) ? mTypes [mFamilyIDs.indexOf (aFamilyId)] : QList (); } /** * Returns the icon corresponding to the given guest OS type id. */ QPixmap VBoxGlobal::vmGuestOSTypeIcon (const QString &aTypeId) const { static const QPixmap none; QPixmap *p = mOsTypeIcons.value (aTypeId); AssertMsg (p, ("Icon for type '%s' must be defined.", aTypeId.toLatin1().constData())); return p ? *p : none; } /** * Returns the guest OS type object corresponding to the given type id of list * containing OS types related to OS family determined by family id attribute. * If the index is invalid a null object is returned. */ CGuestOSType VBoxGlobal::vmGuestOSType (const QString &aTypeId, const QString &aFamilyId /* = QString::null */) const { QList list; if (mFamilyIDs.contains (aFamilyId)) { list = mTypes [mFamilyIDs.indexOf (aFamilyId)]; } else { for (int i = 0; i < mFamilyIDs.size(); ++ i) list += mTypes [i]; } for (int j = 0; j < list.size(); ++ j) if (!list [j].GetId().compare (aTypeId)) return list [j]; AssertMsgFailed (("Type ID incorrect: '%s'.", aTypeId.toLatin1().constData())); return CGuestOSType(); } /** * Returns the description corresponding to the given guest OS type id. */ QString VBoxGlobal::vmGuestOSTypeDescription (const QString &aTypeId) const { for (int i = 0; i < mFamilyIDs.size(); ++ i) { QList list (mTypes [i]); for ( int j = 0; j < list.size(); ++ j) if (!list [j].GetId().compare (aTypeId)) return list [j].GetDescription(); } return QString::null; } struct PortConfig { const char *name; const ulong IRQ; const ulong IOBase; }; static const PortConfig kComKnownPorts[] = { { "COM1", 4, 0x3F8 }, { "COM2", 3, 0x2F8 }, { "COM3", 4, 0x3E8 }, { "COM4", 3, 0x2E8 }, /* must not contain an element with IRQ=0 and IOBase=0 used to cause * toCOMPortName() to return the "User-defined" string for these values. */ }; static const PortConfig kLptKnownPorts[] = { { "LPT1", 7, 0x378 }, { "LPT2", 5, 0x278 }, { "LPT1", 2, 0x3BC }, /* must not contain an element with IRQ=0 and IOBase=0 used to cause * toLPTPortName() to return the "User-defined" string for these values. */ }; /** * Similar to toString (KMediumType), but returns 'Differencing' for * normal hard disks that have a parent. */ QString VBoxGlobal::mediumTypeString(const CMedium &medium) const { if (!medium.GetParent().isNull()) { Assert(medium.GetType() == KMediumType_Normal); return mDiskTypes_Differencing; } return gpConverter->toString(medium.GetType()); } /** * Returns the list of the standard COM port names (i.e. "COMx"). */ QStringList VBoxGlobal::COMPortNames() const { QStringList list; for (size_t i = 0; i < RT_ELEMENTS (kComKnownPorts); ++ i) list << kComKnownPorts [i].name; return list; } /** * Returns the list of the standard LPT port names (i.e. "LPTx"). */ QStringList VBoxGlobal::LPTPortNames() const { QStringList list; for (size_t i = 0; i < RT_ELEMENTS (kLptKnownPorts); ++ i) list << kLptKnownPorts [i].name; return list; } /** * Returns the name of the standard COM port corresponding to the given * parameters, or "User-defined" (which is also returned when both * @a aIRQ and @a aIOBase are 0). */ QString VBoxGlobal::toCOMPortName (ulong aIRQ, ulong aIOBase) const { for (size_t i = 0; i < RT_ELEMENTS (kComKnownPorts); ++ i) if (kComKnownPorts [i].IRQ == aIRQ && kComKnownPorts [i].IOBase == aIOBase) return kComKnownPorts [i].name; return mUserDefinedPortName; } /** * Returns the name of the standard LPT port corresponding to the given * parameters, or "User-defined" (which is also returned when both * @a aIRQ and @a aIOBase are 0). */ QString VBoxGlobal::toLPTPortName (ulong aIRQ, ulong aIOBase) const { for (size_t i = 0; i < RT_ELEMENTS (kLptKnownPorts); ++ i) if (kLptKnownPorts [i].IRQ == aIRQ && kLptKnownPorts [i].IOBase == aIOBase) return kLptKnownPorts [i].name; return mUserDefinedPortName; } /** * Returns port parameters corresponding to the given standard COM name. * Returns @c true on success, or @c false if the given port name is not one * of the standard names (i.e. "COMx"). */ bool VBoxGlobal::toCOMPortNumbers (const QString &aName, ulong &aIRQ, ulong &aIOBase) const { for (size_t i = 0; i < RT_ELEMENTS (kComKnownPorts); ++ i) if (strcmp (kComKnownPorts [i].name, aName.toUtf8().data()) == 0) { aIRQ = kComKnownPorts [i].IRQ; aIOBase = kComKnownPorts [i].IOBase; return true; } return false; } /** * Returns port parameters corresponding to the given standard LPT name. * Returns @c true on success, or @c false if the given port name is not one * of the standard names (i.e. "LPTx"). */ bool VBoxGlobal::toLPTPortNumbers (const QString &aName, ulong &aIRQ, ulong &aIOBase) const { for (size_t i = 0; i < RT_ELEMENTS (kLptKnownPorts); ++ i) if (strcmp (kLptKnownPorts [i].name, aName.toUtf8().data()) == 0) { aIRQ = kLptKnownPorts [i].IRQ; aIOBase = kLptKnownPorts [i].IOBase; return true; } return false; } /** * Searches for the given hard disk in the list of known media descriptors and * calls UIMedium::details() on the found descriptor. * * If the requested hard disk is not found (for example, it's a new hard disk * for a new VM created outside our UI), then media enumeration is requested and * the search is repeated. We assume that the second attempt always succeeds and * assert otherwise. * * @note Technically, the second attempt may fail if, for example, the new hard * passed to this method disk gets removed before #startEnumeratingMedia() * succeeds. This (unexpected object uninitialization) is a generic * problem though and needs to be addressed using exceptions (see also the * @todo in UIMedium::details()). */ QString VBoxGlobal::details (const CMedium &aMedium, bool aPredictDiff, bool fUseHtml /* = true */) { CMedium cmedium (aMedium); UIMedium medium; if (!findMedium (cmedium, medium)) { /* Medium may be new and not already in the media list, request refresh */ startEnumeratingMedia(); if (!findMedium (cmedium, medium)) /* Medium might be deleted already, return null string */ return QString(); } return fUseHtml ? medium.detailsHTML (true /* aNoDiffs */, aPredictDiff) : medium.details(true /* aNoDiffs */, aPredictDiff); } /** * Returns the details of the given USB device as a single-line string. */ QString VBoxGlobal::details (const CUSBDevice &aDevice) const { QString sDetails; if (aDevice.isNull()) sDetails = tr("Unknown device", "USB device details"); else { QString m = aDevice.GetManufacturer().trimmed(); QString p = aDevice.GetProduct().trimmed(); if (m.isEmpty() && p.isEmpty()) { sDetails = tr ("Unknown device %1:%2", "USB device details") .arg (QString().sprintf ("%04hX", aDevice.GetVendorId())) .arg (QString().sprintf ("%04hX", aDevice.GetProductId())); } else { if (p.toUpper().startsWith (m.toUpper())) sDetails = p; else sDetails = m + " " + p; } ushort r = aDevice.GetRevision(); if (r != 0) sDetails += QString().sprintf (" [%04hX]", r); } return sDetails.trimmed(); } /** * Returns the multi-line description of the given USB device. */ QString VBoxGlobal::toolTip (const CUSBDevice &aDevice) const { QString tip = tr ("Vendor ID: %1
" "Product ID: %2
" "Revision: %3", "USB device tooltip") .arg (QString().sprintf ("%04hX", aDevice.GetVendorId())) .arg (QString().sprintf ("%04hX", aDevice.GetProductId())) .arg (QString().sprintf ("%04hX", aDevice.GetRevision())); QString ser = aDevice.GetSerialNumber(); if (!ser.isEmpty()) tip += QString (tr ("
Serial No. %1", "USB device tooltip")) .arg (ser); /* add the state field if it's a host USB device */ CHostUSBDevice hostDev (aDevice); if (!hostDev.isNull()) { tip += QString (tr ("
State: %1", "USB device tooltip")) .arg (gpConverter->toString (hostDev.GetState())); } return tip; } /** * Returns the multi-line description of the given USB filter */ QString VBoxGlobal::toolTip (const CUSBDeviceFilter &aFilter) const { QString tip; QString vendorId = aFilter.GetVendorId(); if (!vendorId.isEmpty()) tip += tr ("Vendor ID: %1", "USB filter tooltip") .arg (vendorId); QString productId = aFilter.GetProductId(); if (!productId.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Product ID: %2", "USB filter tooltip") .arg (productId); QString revision = aFilter.GetRevision(); if (!revision.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Revision: %3", "USB filter tooltip") .arg (revision); QString product = aFilter.GetProduct(); if (!product.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Product: %4", "USB filter tooltip") .arg (product); QString manufacturer = aFilter.GetManufacturer(); if (!manufacturer.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Manufacturer: %5", "USB filter tooltip") .arg (manufacturer); QString serial = aFilter.GetSerialNumber(); if (!serial.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Serial No.: %1", "USB filter tooltip") .arg (serial); QString port = aFilter.GetPort(); if (!port.isEmpty()) tip += tip.isEmpty() ? "":"
" + tr ("Port: %1", "USB filter tooltip") .arg (port); /* add the state field if it's a host USB device */ CHostUSBDevice hostDev (aFilter); if (!hostDev.isNull()) { tip += tip.isEmpty() ? "":"
" + tr ("State: %1", "USB filter tooltip") .arg (gpConverter->toString (hostDev.GetState())); } return tip; } /** * Returns a details report on a given VM represented as a HTML table. * * @param aMachine Machine to create a report for. * @param aWithLinks @c true if section titles should be hypertext links. */ QString VBoxGlobal::detailsReport (const CMachine &aMachine, bool aWithLinks) { /* Details templates */ static const char *sTableTpl = "%1

"; static const char *sSectionHrefTpl = "

" "%4" "%5" " "; static const char *sSectionBoldTpl = "

" "%4" "%5" " "; static const char *sSectionItemTpl1 = "%1"; static const char *sSectionItemTpl2 = "%1:%2"; static const char *sSectionItemTpl3 = "%1"; const QString §ionTpl = aWithLinks ? sSectionHrefTpl : sSectionBoldTpl; /* Compose details report */ QString report; /* General */ { QString item = QString (sSectionItemTpl2).arg (tr ("Name", "details report"), aMachine.GetName()) + QString (sSectionItemTpl2).arg (tr ("OS Type", "details report"), vmGuestOSTypeDescription (aMachine.GetOSTypeId())); report += sectionTpl .arg (2 + 2) /* rows */ .arg (":/machine_16px.png", /* icon */ "#general", /* link */ tr ("General", "details report"), /* title */ item); /* items */ } /* System */ { /* BIOS Settings holder */ CBIOSSettings biosSettings = aMachine.GetBIOSSettings(); /* System details row count: */ int iRowCount = 2; /* Memory & CPU details rows initially. */ /* Boot order */ QString bootOrder; for (ulong i = 1; i <= mVBox.GetSystemProperties().GetMaxBootPosition(); ++ i) { KDeviceType device = aMachine.GetBootOrder (i); if (device == KDeviceType_Null) continue; if (!bootOrder.isEmpty()) bootOrder += ", "; bootOrder += gpConverter->toString (device); } if (bootOrder.isEmpty()) bootOrder = gpConverter->toString (KDeviceType_Null); iRowCount += 1; /* Boot-order row. */ #ifdef VBOX_WITH_FULL_DETAILS_REPORT /* ACPI */ QString acpi = biosSettings.GetACPIEnabled() ? tr ("Enabled", "details report (ACPI)") : tr ("Disabled", "details report (ACPI)"); /* IO APIC */ QString ioapic = biosSettings.GetIOAPICEnabled() ? tr ("Enabled", "details report (IO APIC)") : tr ("Disabled", "details report (IO APIC)"); /* PAE/NX */ QString pae = aMachine.GetCpuProperty(KCpuPropertyType_PAE) ? tr ("Enabled", "details report (PAE/NX)") : tr ("Disabled", "details report (PAE/NX)"); iRowCount += 3; /* Full report rows. */ #endif /* VBOX_WITH_FULL_DETAILS_REPORT */ /* VT-x/AMD-V */ QString virt = aMachine.GetHWVirtExProperty(KHWVirtExPropertyType_Enabled) ? tr ("Enabled", "details report (VT-x/AMD-V)") : tr ("Disabled", "details report (VT-x/AMD-V)"); /* Nested Paging */ QString nested = aMachine.GetHWVirtExProperty(KHWVirtExPropertyType_NestedPaging) ? tr ("Enabled", "details report (Nested Paging)") : tr ("Disabled", "details report (Nested Paging)"); /* VT-x/AMD-V availability: */ bool fVTxAMDVSupported = host().GetProcessorFeature(KProcessorFeature_HWVirtEx); if (fVTxAMDVSupported) iRowCount += 2; /* VT-x/AMD-V items. */ QString item = QString (sSectionItemTpl2).arg (tr ("Base Memory", "details report"), tr ("%1 MB", "details report")) .arg (aMachine.GetMemorySize()) + QString (sSectionItemTpl2).arg (tr ("Processor(s)", "details report"), tr ("%1", "details report")) .arg (aMachine.GetCPUCount()) + QString (sSectionItemTpl2).arg (tr ("Execution Cap", "details report"), tr ("%1%", "details report")) .arg (aMachine.GetCPUExecutionCap()) + QString (sSectionItemTpl2).arg (tr ("Boot Order", "details report"), bootOrder) #ifdef VBOX_WITH_FULL_DETAILS_REPORT + QString (sSectionItemTpl2).arg (tr ("ACPI", "details report"), acpi) + QString (sSectionItemTpl2).arg (tr ("IO APIC", "details report"), ioapic) + QString (sSectionItemTpl2).arg (tr ("PAE/NX", "details report"), pae) #endif /* VBOX_WITH_FULL_DETAILS_REPORT */ ; if (fVTxAMDVSupported) item += QString (sSectionItemTpl2).arg (tr ("VT-x/AMD-V", "details report"), virt) + QString (sSectionItemTpl2).arg (tr ("Nested Paging", "details report"), nested); report += sectionTpl .arg (2 + iRowCount) /* rows */ .arg (":/chipset_16px.png", /* icon */ "#system", /* link */ tr ("System", "details report"), /* title */ item); /* items */ } /* Display */ { /* Rows including section header and footer */ int rows = 2; /* Video tab */ QString item = QString(sSectionItemTpl2) .arg(tr ("Video Memory", "details report"), tr ("%1 MB", "details report")) .arg(aMachine.GetVRAMSize()); ++rows; int cGuestScreens = aMachine.GetMonitorCount(); if (cGuestScreens > 1) { item += QString(sSectionItemTpl2) .arg(tr("Screens", "details report")) .arg(cGuestScreens); ++rows; } QString acc3d = is3DAvailable() && aMachine.GetAccelerate3DEnabled() ? tr ("Enabled", "details report (3D Acceleration)") : tr ("Disabled", "details report (3D Acceleration)"); item += QString(sSectionItemTpl2) .arg(tr("3D Acceleration", "details report"), acc3d); ++rows; #ifdef VBOX_WITH_VIDEOHWACCEL QString acc2dVideo = aMachine.GetAccelerate2DVideoEnabled() ? tr ("Enabled", "details report (2D Video Acceleration)") : tr ("Disabled", "details report (2D Video Acceleration)"); item += QString (sSectionItemTpl2) .arg (tr ("2D Video Acceleration", "details report"), acc2dVideo); ++ rows; #endif /* VRDP tab */ CVRDEServer srv = aMachine.GetVRDEServer(); if (!srv.isNull()) { if (srv.GetEnabled()) item += QString (sSectionItemTpl2) .arg (tr ("Remote Desktop Server Port", "details report (VRDE Server)")) .arg (srv.GetVRDEProperty("TCP/Ports")); else item += QString (sSectionItemTpl2) .arg (tr ("Remote Desktop Server", "details report (VRDE Server)")) .arg (tr ("Disabled", "details report (VRDE Server)")); ++ rows; } report += sectionTpl .arg (rows) /* rows */ .arg (":/vrdp_16px.png", /* icon */ "#display", /* link */ tr ("Display", "details report"), /* title */ item); /* items */ } /* Storage */ { /* Rows including section header and footer */ int rows = 2; QString item; /* Iterate over the all machine controllers: */ CStorageControllerVector controllers = aMachine.GetStorageControllers(); for (int i = 0; i < controllers.size(); ++i) { /* Get current controller: */ const CStorageController &controller = controllers[i]; /* Add controller information: */ item += QString(sSectionItemTpl3).arg(controller.GetName()); ++ rows; /* Populate sorted map with attachments information: */ QMap attachmentsMap; CMediumAttachmentVector attachments = aMachine.GetMediumAttachmentsOfController(controller.GetName()); for (int j = 0; j < attachments.size(); ++j) { /* Get current attachment: */ const CMediumAttachment &attachment = attachments[j]; /* Prepare current storage slot: */ StorageSlot attachmentSlot(controller.GetBus(), attachment.GetPort(), attachment.GetDevice()); /* Append 'device slot name' with 'device type name' for CD/DVD devices only: */ QString strDeviceType = attachment.GetType() == KDeviceType_DVD ? tr("(CD/DVD)") : QString(); if (!strDeviceType.isNull()) strDeviceType.prepend(' '); /* Prepare current medium object: */ const CMedium &medium = attachment.GetMedium(); /* Prepare information about current medium & attachment: */ QString strAttachmentInfo = !attachment.isOk() ? QString() : QString(sSectionItemTpl2) .arg(QString(" ") + gpConverter->toString(StorageSlot(controller.GetBus(), attachment.GetPort(), attachment.GetDevice())) + strDeviceType) .arg(details(medium, false)); /* Insert that attachment into map: */ if (!strAttachmentInfo.isNull()) attachmentsMap.insert(attachmentSlot, strAttachmentInfo); } /* Iterate over the sorted map with attachments information: */ QMapIterator it(attachmentsMap); while (it.hasNext()) { /* Add controller information: */ it.next(); item += it.value(); ++rows; } } if (item.isNull()) { item = QString (sSectionItemTpl1) .arg (tr ("Not Attached", "details report (Storage)")); ++ rows; } report += sectionTpl .arg (rows) /* rows */ .arg (":/attachment_16px.png", /* icon */ "#storage", /* link */ tr ("Storage", "details report"), /* title */ item); /* items */ } /* Audio */ { QString item; CAudioAdapter audio = aMachine.GetAudioAdapter(); int rows = audio.GetEnabled() ? 3 : 2; if (audio.GetEnabled()) item = QString (sSectionItemTpl2) .arg (tr ("Host Driver", "details report (audio)"), gpConverter->toString (audio.GetAudioDriver())) + QString (sSectionItemTpl2) .arg (tr ("Controller", "details report (audio)"), gpConverter->toString (audio.GetAudioController())); else item = QString (sSectionItemTpl1) .arg (tr ("Disabled", "details report (audio)")); report += sectionTpl .arg (rows + 1) /* rows */ .arg (":/sound_16px.png", /* icon */ "#audio", /* link */ tr ("Audio", "details report"), /* title */ item); /* items */ } /* Network */ { QString item; ulong count = mVBox.GetSystemProperties().GetMaxNetworkAdapters(KChipsetType_PIIX3); int rows = 2; /* including section header and footer */ for (ulong slot = 0; slot < count; slot ++) { CNetworkAdapter adapter = aMachine.GetNetworkAdapter (slot); if (adapter.GetEnabled()) { KNetworkAttachmentType type = adapter.GetAttachmentType(); QString attType = gpConverter->toString (adapter.GetAdapterType()) .replace (QRegExp ("\\s\$.+\$"), " (%1)"); /* don't use the adapter type string for types that have * an additional symbolic network/interface name field, use * this name instead */ if (type == KNetworkAttachmentType_Bridged) attType = attType.arg (tr ("Bridged adapter, %1", "details report (network)").arg (adapter.GetBridgedInterface())); else if (type == KNetworkAttachmentType_Internal) attType = attType.arg (tr ("Internal network, '%1'", "details report (network)").arg (adapter.GetInternalNetwork())); else if (type == KNetworkAttachmentType_HostOnly) attType = attType.arg (tr ("Host-only adapter, '%1'", "details report (network)").arg (adapter.GetHostOnlyInterface())); else if (type == KNetworkAttachmentType_Generic) attType = attType.arg (tr ("Generic, '%1'", "details report (network)").arg (adapter.GetGenericDriver())); else attType = attType.arg (gpConverter->toString (type)); item += QString (sSectionItemTpl2) .arg (tr ("Adapter %1", "details report (network)") .arg (adapter.GetSlot() + 1)) .arg (attType); ++ rows; } } if (item.isNull()) { item = QString (sSectionItemTpl1) .arg (tr ("Disabled", "details report (network)")); ++ rows; } report += sectionTpl .arg (rows) /* rows */ .arg (":/nw_16px.png", /* icon */ "#network", /* link */ tr ("Network", "details report"), /* title */ item); /* items */ } /* Serial Ports */ { QString item; ulong count = mVBox.GetSystemProperties().GetSerialPortCount(); int rows = 2; /* including section header and footer */ for (ulong slot = 0; slot < count; slot ++) { CSerialPort port = aMachine.GetSerialPort (slot); if (port.GetEnabled()) { KPortMode mode = port.GetHostMode(); QString data = toCOMPortName (port.GetIRQ(), port.GetIOBase()) + ", "; if (mode == KPortMode_HostPipe || mode == KPortMode_HostDevice || mode == KPortMode_RawFile) data += QString ("%1 (%2)") .arg (gpConverter->toString (mode)) .arg (QDir::toNativeSeparators (port.GetPath())); else data += gpConverter->toString (mode); item += QString (sSectionItemTpl2) .arg (tr ("Port %1", "details report (serial ports)") .arg (port.GetSlot() + 1)) .arg (data); ++ rows; } } if (item.isNull()) { item = QString (sSectionItemTpl1) .arg (tr ("Disabled", "details report (serial ports)")); ++ rows; } report += sectionTpl .arg (rows) /* rows */ .arg (":/serial_port_16px.png", /* icon */ "#serialPorts", /* link */ tr ("Serial Ports", "details report"), /* title */ item); /* items */ } /* Parallel Ports */ { QString item; ulong count = mVBox.GetSystemProperties().GetParallelPortCount(); int rows = 2; /* including section header and footer */ for (ulong slot = 0; slot < count; slot ++) { CParallelPort port = aMachine.GetParallelPort (slot); if (port.GetEnabled()) { QString data = toLPTPortName (port.GetIRQ(), port.GetIOBase()) + QString (" (%1)") .arg (QDir::toNativeSeparators (port.GetPath())); item += QString (sSectionItemTpl2) .arg (tr ("Port %1", "details report (parallel ports)") .arg (port.GetSlot() + 1)) .arg (data); ++ rows; } } if (item.isNull()) { item = QString (sSectionItemTpl1) .arg (tr ("Disabled", "details report (parallel ports)")); ++ rows; } /* Temporary disabled */ QString dummy = sectionTpl /* report += sectionTpl */ .arg (rows) /* rows */ .arg (":/parallel_port_16px.png", /* icon */ "#parallelPorts", /* link */ tr ("Parallel Ports", "details report"), /* title */ item); /* items */ } /* USB */ { QString item; CUSBController ctl = aMachine.GetUSBController(); if ( !ctl.isNull() && ctl.GetProxyAvailable()) { /* the USB controller may be unavailable (i.e. in VirtualBox OSE) */ if (ctl.GetEnabled()) { CUSBDeviceFilterVector coll = ctl.GetDeviceFilters(); uint active = 0; for (int i = 0; i < coll.size(); ++i) if (coll[i].GetActive()) active ++; item = QString (sSectionItemTpl2) .arg (tr ("Device Filters", "details report (USB)"), tr ("%1 (%2 active)", "details report (USB)") .arg (coll.size()).arg (active)); } else item = QString (sSectionItemTpl1) .arg (tr ("Disabled", "details report (USB)")); report += sectionTpl .arg (2 + 1) /* rows */ .arg (":/usb_16px.png", /* icon */ "#usb", /* link */ tr ("USB", "details report"), /* title */ item); /* items */ } } /* Shared Folders */ { QString item; ulong count = aMachine.GetSharedFolders().size(); if (count > 0) { item = QString (sSectionItemTpl2) .arg (tr ("Shared Folders", "details report (shared folders)")) .arg (count); } else item = QString (sSectionItemTpl1) .arg (tr ("None", "details report (shared folders)")); report += sectionTpl .arg (2 + 1) /* rows */ .arg (":/shared_folder_16px.png", /* icon */ "#sfolders", /* link */ tr ("Shared Folders", "details report"), /* title */ item); /* items */ } return QString (sTableTpl). arg (report); } #if defined(Q_WS_X11) && !defined(VBOX_OSE) double VBoxGlobal::findLicenseFile (const QStringList &aFilesList, QRegExp aPattern, QString &aLicenseFile) const { double maxVersionNumber = 0; aLicenseFile = ""; for (int index = 0; index < aFilesList.count(); ++ index) { aPattern.indexIn (aFilesList [index]); QString version = aPattern.cap (1); if (maxVersionNumber < version.toDouble()) { maxVersionNumber = version.toDouble(); aLicenseFile = aFilesList [index]; } } return maxVersionNumber; } bool VBoxGlobal::showVirtualBoxLicense() { /* get the apps doc path */ int size = 256; char *buffer = (char*) RTMemTmpAlloc (size); RTPathAppDocs (buffer, size); QString path (buffer); RTMemTmpFree (buffer); QDir docDir (path); docDir.setFilter (QDir::Files); docDir.setNameFilters (QStringList ("License-*.html")); /* Make sure that the language is in two letter code. * Note: if languageId() returns an empty string lang.name() will * return "C" which is an valid language code. */ QLocale lang (VBoxGlobal::languageId()); QStringList filesList = docDir.entryList(); QString licenseFile; /* First try to find a localized version of the license file. */ double versionNumber = findLicenseFile (filesList, QRegExp (QString ("License-([\\d\\.]+)-%1.html").arg (lang.name())), licenseFile); /* If there wasn't a localized version of the currently selected language, * search for the generic one. */ if (versionNumber == 0) versionNumber = findLicenseFile (filesList, QRegExp ("License-([\\d\\.]+).html"), licenseFile); /* Check the version again. */ if (!versionNumber) { msgCenter().cannotFindLicenseFiles (path); return false; } /* compose the latest license file full path */ QString latestVersion = QString::number (versionNumber); QString latestFilePath = docDir.absoluteFilePath (licenseFile); /* check for the agreed license version */ QStringList strList = virtualBox().GetExtraData (GUI_LicenseKey).split(","); for (int i=0; i < strList.size(); ++i) if (strList.at(i) == latestVersion) return true; VBoxLicenseViewer licenseDialog; bool result = licenseDialog.showLicenseFromFile(latestFilePath) == QDialog::Accepted; if (result) virtualBox().SetExtraData (GUI_LicenseKey, (strList << latestVersion).join(",")); return result; } #endif /* defined(Q_WS_X11) && !defined(VBOX_OSE) */ /** * Opens a direct session for a machine with the given ID. * This method does user-friendly error handling (display error messages, etc.). * and returns a null CSession object in case of any error. * If this method succeeds, don't forget to close the returned session when * it is no more necessary. * * @param aId Machine ID. * @param aLockType @c KLockType_Shared to open an existing session with * the machine which is already running, @c KLockType_Write * to open a new direct session, @c KLockType_VM to open * a new session for running a VM in this process. */ CSession VBoxGlobal::openSession(const QString &aId, KLockType aLockType /* = KLockType_Shared */) { CSession session; session.createInstance(CLSID_Session); if (session.isNull()) { msgCenter().cannotOpenSession (session); return session; } CMachine foundMachine = CVirtualBox(mVBox).FindMachine(aId); if (!foundMachine.isNull()) { foundMachine.LockMachine(session, aLockType); if (session.GetType() == KSessionType_Shared) { CMachine machine = session.GetMachine(); /* Make sure that the language is in two letter code. * Note: if languageId() returns an empty string lang.name() will * return "C" which is an valid language code. */ QLocale lang(VBoxGlobal::languageId()); machine.SetGuestPropertyValue ("/VirtualBox/HostInfo/GUI/LanguageID", lang.name()); } } if (!foundMachine.isOk()) { msgCenter().cannotOpenSession(foundMachine); session.detach(); } else if (!mVBox.isOk()) { msgCenter().cannotOpenSession(mVBox, foundMachine); session.detach(); } return session; } /** * Appends the NULL medium to the media list. * For using with VBoxGlobal::startEnumeratingMedia() only. */ static void addNullMediumToList (VBoxMediaList &aList, VBoxMediaList::iterator aWhere) { UIMedium medium; aList.insert (aWhere, medium); } /** * Appends the given list of mediums to the media list. * For using with VBoxGlobal::startEnumeratingMedia() only. */ static void addMediumsToList (const CMediumVector &aVector, VBoxMediaList &aList, VBoxMediaList::iterator aWhere, UIMediumType aType, UIMedium *aParent = 0) { VBoxMediaList::iterator first = aWhere; for (CMediumVector::ConstIterator it = aVector.begin(); it != aVector.end(); ++ it) { CMedium cmedium (*it); UIMedium medium (cmedium, aType, aParent); /* Search for a proper alphabetic position */ VBoxMediaList::iterator jt = first; for (; jt != aWhere; ++ jt) if ((*jt).name().localeAwareCompare (medium.name()) > 0) break; aList.insert (jt, medium); /* Adjust the first item if inserted before it */ if (jt == first) -- first; } } /** * Appends the given list of hard disks and all their children to the media list. * For using with VBoxGlobal::startEnumeratingMedia() only. */ static void addHardDisksToList (const CMediumVector &aVector, VBoxMediaList &aList, VBoxMediaList::iterator aWhere, UIMedium *aParent = 0) { VBoxMediaList::iterator first = aWhere; /* First pass: Add siblings sorted */ for (CMediumVector::ConstIterator it = aVector.begin(); it != aVector.end(); ++ it) { CMedium cmedium (*it); UIMedium medium (cmedium, UIMediumType_HardDisk, aParent); /* Search for a proper alphabetic position */ VBoxMediaList::iterator jt = first; for (; jt != aWhere; ++ jt) if ((*jt).name().localeAwareCompare (medium.name()) > 0) break; aList.insert (jt, medium); /* Adjust the first item if inserted before it */ if (jt == first) -- first; } /* Second pass: Add children */ for (VBoxMediaList::iterator it = first; it != aWhere;) { CMediumVector children = (*it).medium().GetChildren(); UIMedium *parent = &(*it); ++ it; /* go to the next sibling before inserting children */ addHardDisksToList (children, aList, it, parent); } } /** * Starts a thread that asynchronously enumerates all currently registered * media. * * Before the enumeration is started, the current media list (a list returned by * #currentMediaList()) is populated with all registered media and the * #mediumEnumStarted() signal is emitted. The enumeration thread then walks this * list, checks for media accessibility and emits #mediumEnumerated() signals of * each checked medium. When all media are checked, the enumeration thread is * stopped and the #mediumEnumFinished() signal is emitted. * * If the enumeration is already in progress, no new thread is started. * * The media list returned by #currentMediaList() is always sorted * alphabetically by the location attribute and comes in the following order: *

All hard disks. If a hard disk has children, these children * (alphabetically sorted) immediately follow their parent and therefore * appear before its next sibling hard disk.
All CD/DVD images.
All Floppy images.

* * Note that #mediumEnumerated() signals are emitted in the same order as * described above. * * @sa #currentMediaList() * @sa #isMediaEnumerationStarted() */ void VBoxGlobal::startEnumeratingMedia() { AssertReturnVoid (mValid); /* check if already started but not yet finished */ if (mMediaEnumThread != NULL) return; /* ignore the request during application termination */ if (sVBoxGlobalInCleanup) return; /* composes a list of all currently known media & their children */ mMediaList.clear(); addNullMediumToList (mMediaList, mMediaList.end()); addHardDisksToList (mVBox.GetHardDisks(), mMediaList, mMediaList.end()); addMediumsToList (mHost.GetDVDDrives(), mMediaList, mMediaList.end(), UIMediumType_DVD); addMediumsToList (mVBox.GetDVDImages(), mMediaList, mMediaList.end(), UIMediumType_DVD); addMediumsToList (mHost.GetFloppyDrives(), mMediaList, mMediaList.end(), UIMediumType_Floppy); addMediumsToList (mVBox.GetFloppyImages(), mMediaList, mMediaList.end(), UIMediumType_Floppy); /* enumeration thread class */ class MediaEnumThread : public QThread { public: MediaEnumThread (VBoxMediaList &aList) : mVector (aList.size()) , mSavedIt (aList.begin()) { int i = 0; for (VBoxMediaList::const_iterator it = aList.begin(); it != aList.end(); ++ it) mVector [i ++] = *it; } virtual void run() { LogFlow (("MediaEnumThread started.\n")); COMBase::InitializeCOM(false); CVirtualBox mVBox = vboxGlobal().virtualBox(); QObject *self = &vboxGlobal(); /* Enumerate the list */ for (int i = 0; i < mVector.size() && !sVBoxGlobalInCleanup; ++ i) { mVector [i].blockAndQueryState(); QApplication:: postEvent (self, new VBoxMediaEnumEvent (mVector [i], mSavedIt)); ++mSavedIt; } /* Post the end-of-enumeration event */ if (!sVBoxGlobalInCleanup) QApplication::postEvent (self, new VBoxMediaEnumEvent (mSavedIt)); COMBase::CleanupCOM(); LogFlow (("MediaEnumThread finished.\n")); } private: QVector mVector; VBoxMediaList::iterator mSavedIt; }; mMediaEnumThread = new MediaEnumThread (mMediaList); AssertReturnVoid (mMediaEnumThread); /* emit mediumEnumStarted() after we set mMediaEnumThread to != NULL * to cause isMediaEnumerationStarted() to return TRUE from slots */ emit mediumEnumStarted(); mMediaEnumThread->start(); } void VBoxGlobal::reloadProxySettings() { UIProxyManager proxyManager(settings().proxySettings()); if (proxyManager.proxyEnabled()) { QNetworkProxy::setApplicationProxy(QNetworkProxy(QNetworkProxy::HttpProxy, proxyManager.proxyHost(), proxyManager.proxyPort().toInt(), proxyManager.authEnabled() ? proxyManager.authLogin() : QString(), proxyManager.authEnabled() ? proxyManager.authPassword() : QString())); } else { QNetworkProxy::setApplicationProxy(QNetworkProxy(QNetworkProxy::NoProxy)); } } /** * Adds a new medium to the current media list and emits the #mediumAdded() * signal. * * @sa #currentMediaList() */ void VBoxGlobal::addMedium (const UIMedium &aMedium) { /* Note that we maintain the same order here as #startEnumeratingMedia() */ VBoxMediaList::iterator it = mMediaList.begin(); if (aMedium.type() == UIMediumType_HardDisk) { VBoxMediaList::iterator itParent = mMediaList.end(); for (; it != mMediaList.end(); ++ it) { /* skip null medium that come first */ if ((*it).isNull()) continue; if ((*it).type() != UIMediumType_HardDisk) break; if (aMedium.parent() != NULL && itParent == mMediaList.end()) { if (&*it == aMedium.parent()) itParent = it; } else { /* break if met a parent's sibling (will insert before it) */ if (aMedium.parent() != NULL && (*it).parent() == (*itParent).parent()) break; /* compare to aMedium's siblings */ if ((*it).parent() == aMedium.parent() && (*it).name().localeAwareCompare (aMedium.name()) > 0) break; } } AssertReturnVoid (aMedium.parent() == NULL || itParent != mMediaList.end()); } else { for (; it != mMediaList.end(); ++ it) { /* skip null medium that come first */ if ((*it).isNull()) continue; /* skip HardDisks that come first */ if ((*it).type() == UIMediumType_HardDisk) continue; /* skip DVD when inserting Floppy */ if (aMedium.type() == UIMediumType_Floppy && (*it).type() == UIMediumType_DVD) continue; if ((*it).name().localeAwareCompare (aMedium.name()) > 0 || (aMedium.type() == UIMediumType_DVD && (*it).type() == UIMediumType_Floppy)) break; } } it = mMediaList.insert (it, aMedium); emit mediumAdded (*it); } /** * Updates the medium in the current media list and emits the #mediumUpdated() * signal. * * @sa #currentMediaList() */ void VBoxGlobal::updateMedium (const UIMedium &aMedium) { VBoxMediaList::Iterator it; for (it = mMediaList.begin(); it != mMediaList.end(); ++ it) if ((*it).id() == aMedium.id()) break; AssertReturnVoid (it != mMediaList.end()); if (&*it != &aMedium) *it = aMedium; emit mediumUpdated (*it); } /** * Removes the medium from the current media list and emits the #mediumRemoved() * signal. * * @sa #currentMediaList() */ void VBoxGlobal::removeMedium (UIMediumType aType, const QString &aId) { VBoxMediaList::Iterator it; for (it = mMediaList.begin(); it != mMediaList.end(); ++ it) if ((*it).id() == aId) break; AssertReturnVoid (it != mMediaList.end()); #if DEBUG /* sanity: must be no children */ { VBoxMediaList::Iterator jt = it; ++ jt; AssertReturnVoid (jt == mMediaList.end() || (*jt).parent() != &*it); } #endif UIMedium *pParent = (*it).parent(); /* remove the medium from the list to keep it in sync with the server "for * free" when the medium is deleted from one of our UIs */ mMediaList.erase (it); emit mediumRemoved (aType, aId); /* also emit the parent update signal because some attributes like * isReadOnly() may have been changed after child removal */ if (pParent != NULL) { pParent->refresh(); emit mediumUpdated (*pParent); } } /** * Searches for a VBoxMedum object representing the given COM medium object. * * @return true if found and false otherwise. */ bool VBoxGlobal::findMedium (const CMedium &aObj, UIMedium &aMedium) const { for (VBoxMediaList::ConstIterator it = mMediaList.begin(); it != mMediaList.end(); ++ it) { if (((*it).medium().isNull() && aObj.isNull()) || (!(*it).medium().isNull() && !aObj.isNull() && (*it).medium().GetId() == aObj.GetId())) { aMedium = (*it); return true; } } return false; } /** * Searches for a VBoxMedum object with the given medium id attribute. * * @return VBoxMedum if found which is invalid otherwise. */ UIMedium VBoxGlobal::findMedium (const QString &aMediumId) const { for (VBoxMediaList::ConstIterator it = mMediaList.begin(); it != mMediaList.end(); ++ it) if ((*it).id() == aMediumId) return *it; return UIMedium(); } /* Open some external medium using file open dialog * and temporary cache (enumerate) it in GUI inner mediums cache: */ QString VBoxGlobal::openMediumWithFileOpenDialog(UIMediumType mediumType, QWidget *pParent, const QString &strDefaultFolder /* = QString() */, bool fUseLastFolder /* = false */) { /* Initialize variables: */ QList < QPair > filters; QStringList backends; QStringList prefixes; QString strFilter; QString strTitle; QString allType; QString strLastFolder; switch (mediumType) { case UIMediumType_HardDisk: { filters = vboxGlobal().HDDBackends(); strTitle = tr("Please choose a virtual hard drive file"); allType = tr("All virtual hard drive files (%1)"); strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderHD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderCD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderFD); break; } case UIMediumType_DVD: { filters = vboxGlobal().DVDBackends(); strTitle = tr("Please choose a virtual optical disk file"); allType = tr("All virtual optical disk files (%1)"); strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderCD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderHD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderFD); break; } case UIMediumType_Floppy: { filters = vboxGlobal().FloppyBackends(); strTitle = tr("Please choose a virtual floppy disk file"); allType = tr("All virtual floppy disk files (%1)"); strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderFD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderCD); if (strLastFolder.isEmpty()) strLastFolder = virtualBox().GetExtraData(GUI_RecentFolderHD); break; } default: break; } QString strHomeFolder = fUseLastFolder && !strLastFolder.isEmpty() ? strLastFolder : strDefaultFolder.isEmpty() ? vboxGlobal().virtualBox().GetHomeFolder() : strDefaultFolder; /* Prepare filters and backends: */ for (int i = 0; i < filters.count(); ++i) { /* Get iterated filter: */ QPair item = filters.at(i); /* Create one backend filter string: */ backends << QString("%1 (%2)").arg(item.first).arg(item.second); /* Save the suffix's for the "All" entry: */ prefixes << item.second; } if (!prefixes.isEmpty()) backends.insert(0, allType.arg(prefixes.join(" ").trimmed())); backends << tr("All files (*)"); strFilter = backends.join(";;").trimmed(); /* Create open file dialog: */ QStringList files = QIFileDialog::getOpenFileNames(strHomeFolder, strFilter, pParent, strTitle, 0, true, true); /* If dialog has some result: */ if (!files.empty() && !files[0].isEmpty()) return openMedium(mediumType, files[0], pParent); return QString(); } QString VBoxGlobal::openMedium(UIMediumType mediumType, QString strMediumLocation, QWidget *pParent /* = 0*/) { /* Convert to native separators: */ strMediumLocation = QDir::toNativeSeparators(strMediumLocation); /* Initialize variables: */ CVirtualBox vbox = vboxGlobal().virtualBox(); /* Remember the path of the last chosen medium: */ QString strRecentFolderKey = mediumType == UIMediumType_HardDisk ? GUI_RecentFolderHD : mediumType == UIMediumType_DVD ? GUI_RecentFolderCD : mediumType == UIMediumType_Floppy ? GUI_RecentFolderFD : QString(); vbox.SetExtraData(strRecentFolderKey, QFileInfo(strMediumLocation).absolutePath()); /* Update recently used list: */ QString strRecentListKey = mediumType == UIMediumType_HardDisk ? GUI_RecentListHD : mediumType == UIMediumType_DVD ? GUI_RecentListCD : mediumType == UIMediumType_Floppy ? GUI_RecentListFD : QString(); QStringList recentMediumList = vbox.GetExtraData(strRecentListKey).split(';'); if (recentMediumList.contains(strMediumLocation)) recentMediumList.removeAll(strMediumLocation); recentMediumList.prepend(strMediumLocation); while(recentMediumList.size() > 5) recentMediumList.removeLast(); vbox.SetExtraData(strRecentListKey, recentMediumList.join(";")); /* Open corresponding medium: */ CMedium comMedium = vbox.OpenMedium(strMediumLocation, mediumTypeToGlobal(mediumType), KAccessMode_ReadWrite, false); if (vbox.isOk()) { /* Prepare vbox medium wrapper: */ UIMedium vboxMedium; /* First of all we should test if that medium already opened: */ if (!vboxGlobal().findMedium(comMedium, vboxMedium)) { /* And create new otherwise: */ vboxMedium = UIMedium(CMedium(comMedium), mediumType, KMediumState_Created); vboxGlobal().addMedium(vboxMedium); } /* Return vboxMedium id: */ return vboxMedium.id(); } else msgCenter().cannotOpenMedium(pParent, vbox, mediumType, strMediumLocation); return QString(); } #ifdef VBOX_GUI_WITH_SYSTRAY /** * Returns the number of current running Fe/Qt4 main windows. * * @return Number of running main windows. */ int VBoxGlobal::mainWindowCount () { return mVBox.GetExtraData (GUI_MainWindowCount).toInt(); } #endif /** * Native language name of the currently installed translation. * Returns "English" if no translation is installed * or if the translation file is invalid. */ QString VBoxGlobal::languageName() const { return qApp->translate ("@@@", "English", "Native language name"); } /** * Native language country name of the currently installed translation. * Returns "--" if no translation is installed or if the translation file is * invalid, or if the language is independent on the country. */ QString VBoxGlobal::languageCountry() const { return qApp->translate ("@@@", "--", "Native language country name " "(empty if this language is for all countries)"); } /** * Language name of the currently installed translation, in English. * Returns "English" if no translation is installed * or if the translation file is invalid. */ QString VBoxGlobal::languageNameEnglish() const { return qApp->translate ("@@@", "English", "Language name, in English"); } /** * Language country name of the currently installed translation, in English. * Returns "--" if no translation is installed or if the translation file is * invalid, or if the language is independent on the country. */ QString VBoxGlobal::languageCountryEnglish() const { return qApp->translate ("@@@", "--", "Language country name, in English " "(empty if native country name is empty)"); } /** * Comma-separated list of authors of the currently installed translation. * Returns "Oracle Corporation" if no translation is installed or if the * translation file is invalid, or if the translation is supplied by Oracle * Corporation */ QString VBoxGlobal::languageTranslators() const { return qApp->translate ("@@@", "Oracle Corporation", "Comma-separated list of translators"); } /** * Changes the language of all global string constants according to the * currently installed translations tables. */ void VBoxGlobal::retranslateUi() { mDiskTypes_Differencing = tr ("Differencing", "DiskType"); mUserDefinedPortName = tr ("User-defined", "serial port"); mWarningIcon = UIIconPool::defaultIcon(UIIconPool::MessageBoxWarningIcon).pixmap (16, 16); Assert (!mWarningIcon.isNull()); mErrorIcon = UIIconPool::defaultIcon(UIIconPool::MessageBoxCriticalIcon).pixmap (16, 16); Assert (!mErrorIcon.isNull()); /* refresh media properties since they contain some translations too */ for (VBoxMediaList::iterator it = mMediaList.begin(); it != mMediaList.end(); ++ it) it->refresh(); #ifdef Q_WS_X11 /* As X11 do not have functionality for providing human readable key names, * we keep a table of them, which must be updated when the language is changed. */ UIHotKey::retranslateKeyNames(); #endif /* Q_WS_X11 */ } // public static stuff //////////////////////////////////////////////////////////////////////////////// /* static */ bool VBoxGlobal::isDOSType (const QString &aOSTypeId) { if (aOSTypeId.left (3) == "dos" || aOSTypeId.left (3) == "win" || aOSTypeId.left (3) == "os2") return true; return false; } const char *gVBoxLangSubDir = "/nls"; const char *gVBoxLangFileBase = "VirtualBox_"; const char *gVBoxLangFileExt = ".qm"; const char *gVBoxLangIDRegExp = "(([a-z]{2})(?:_([A-Z]{2}))?)|(C)"; const char *gVBoxBuiltInLangName = "C"; class VBoxTranslator : public QTranslator { public: VBoxTranslator (QObject *aParent = 0) : QTranslator (aParent) {} bool loadFile (const QString &aFileName) { QFile file (aFileName); if (!file.open (QIODevice::ReadOnly)) return false; mData = file.readAll(); return load ((uchar*) mData.data(), mData.size()); } private: QByteArray mData; }; static VBoxTranslator *sTranslator = 0; static QString sLoadedLangId = gVBoxBuiltInLangName; /** * Returns the loaded (active) language ID. * Note that it may not match with VBoxGlobalSettings::languageId() if the * specified language cannot be loaded. * If the built-in language is active, this method returns "C". * * @note "C" is treated as the built-in language for simplicity -- the C * locale is used in unix environments as a fallback when the requested * locale is invalid. This way we don't need to process both the "built_in" * language and the "C" language (which is a valid environment setting) * separately. */ /* static */ QString VBoxGlobal::languageId() { return sLoadedLangId; } /** * Loads the language by language ID. * * @param aLangId Language ID in in form of xx_YY. QString::null means the * system default language. */ /* static */ void VBoxGlobal::loadLanguage (const QString &aLangId) { QString langId = aLangId.isEmpty() ? VBoxGlobal::systemLanguageId() : aLangId; QString languageFileName; QString selectedLangId = gVBoxBuiltInLangName; /* If C is selected we change it temporary to en. This makes sure any extra * "en" translation file will be loaded. This is necessary for loading the * plural forms of some of our translations. */ bool fResetToC = false; if (langId == "C") { langId = "en"; fResetToC = true; } char szNlsPath[RTPATH_MAX]; int rc; rc = RTPathAppPrivateNoArch(szNlsPath, sizeof(szNlsPath)); AssertRC (rc); QString nlsPath = QString(szNlsPath) + gVBoxLangSubDir; QDir nlsDir (nlsPath); Assert (!langId.isEmpty()); if (!langId.isEmpty() && langId != gVBoxBuiltInLangName) { QRegExp regExp (gVBoxLangIDRegExp); int pos = regExp.indexIn (langId); /* the language ID should match the regexp completely */ AssertReturnVoid (pos == 0); QString lang = regExp.cap (2); if (nlsDir.exists (gVBoxLangFileBase + langId + gVBoxLangFileExt)) { languageFileName = nlsDir.absoluteFilePath (gVBoxLangFileBase + langId + gVBoxLangFileExt); selectedLangId = langId; } else if (nlsDir.exists (gVBoxLangFileBase + lang + gVBoxLangFileExt)) { languageFileName = nlsDir.absoluteFilePath (gVBoxLangFileBase + lang + gVBoxLangFileExt); selectedLangId = lang; } else { /* Never complain when the default language is requested. In any * case, if no explicit language file exists, we will simply * fall-back to English (built-in). */ if (!aLangId.isNull() && langId != "en") msgCenter().cannotFindLanguage (langId, nlsPath); /* selectedLangId remains built-in here */ AssertReturnVoid (selectedLangId == gVBoxBuiltInLangName); } } /* delete the old translator if there is one */ if (sTranslator) { /* QTranslator destructor will call qApp->removeTranslator() for * us. It will also delete all its child translations we attach to it * below, so we don't have to care about them specially. */ delete sTranslator; } /* load new language files */ sTranslator = new VBoxTranslator (qApp); Assert (sTranslator); bool loadOk = true; if (sTranslator) { if (selectedLangId != gVBoxBuiltInLangName) { Assert (!languageFileName.isNull()); loadOk = sTranslator->loadFile (languageFileName); } /* we install the translator in any case: on failure, this will * activate an empty translator that will give us English * (built-in) */ qApp->installTranslator (sTranslator); } else loadOk = false; if (loadOk) sLoadedLangId = selectedLangId; else { msgCenter().cannotLoadLanguage (languageFileName); sLoadedLangId = gVBoxBuiltInLangName; } /* Try to load the corresponding Qt translation */ if (sLoadedLangId != gVBoxBuiltInLangName) { #ifdef Q_OS_UNIX /* We use system installations of Qt on Linux systems, so first, try * to load the Qt translation from the system location. */ languageFileName = QLibraryInfo::location(QLibraryInfo::TranslationsPath) + "/qt_" + sLoadedLangId + gVBoxLangFileExt; QTranslator *qtSysTr = new QTranslator (sTranslator); Assert (qtSysTr); if (qtSysTr && qtSysTr->load (languageFileName)) qApp->installTranslator (qtSysTr); /* Note that the Qt translation supplied by Oracle is always loaded * afterwards to make sure it will take precedence over the system * translation (it may contain more decent variants of translation * that better correspond to VirtualBox UI). We need to load both * because a newer version of Qt may be installed on the user computer * and the Oracle version may not fully support it. We don't do it on * Win32 because we supply a Qt library there and therefore the * Oracle translation is always the best one. */ #endif languageFileName = nlsDir.absoluteFilePath (QString ("qt_") + sLoadedLangId + gVBoxLangFileExt); QTranslator *qtTr = new QTranslator (sTranslator); Assert (qtTr); if (qtTr && (loadOk = qtTr->load (languageFileName))) qApp->installTranslator (qtTr); /* The below message doesn't fit 100% (because it's an additional * language and the main one won't be reset to built-in on failure) * but the load failure is so rare here that it's not worth a separate * message (but still, having something is better than having none) */ if (!loadOk && !aLangId.isNull()) msgCenter().cannotLoadLanguage (languageFileName); } if (fResetToC) sLoadedLangId = "C"; #ifdef Q_WS_MAC /* Qt doesn't translate the items in the Application menu initially. * Manually trigger an update. */ ::darwinRetranslateAppMenu(); #endif /* Q_WS_MAC */ } QString VBoxGlobal::helpFile() const { #if defined (Q_WS_WIN32) const QString name = "VirtualBox"; const QString suffix = "chm"; #elif defined (Q_WS_MAC) const QString name = "UserManual"; const QString suffix = "pdf"; #elif defined (Q_WS_X11) # if defined VBOX_OSE const QString name = "UserManual"; const QString suffix = "pdf"; # else const QString name = "VirtualBox"; const QString suffix = "chm"; # endif #endif /* Where are the docs located? */ char szDocsPath[RTPATH_MAX]; int rc = RTPathAppDocs (szDocsPath, sizeof (szDocsPath)); AssertRC (rc); /* Make sure that the language is in two letter code. * Note: if languageId() returns an empty string lang.name() will * return "C" which is an valid language code. */ QLocale lang (VBoxGlobal::languageId()); /* Construct the path and the filename */ QString manual = QString ("%1/%2_%3.%4").arg (szDocsPath) .arg (name) .arg (lang.name()) .arg (suffix); /* Check if a help file with that name exists */ QFileInfo fi (manual); if (fi.exists()) return manual; /* Fall back to the standard */ manual = QString ("%1/%2.%4").arg (szDocsPath) .arg (name) .arg (suffix); return manual; } /** * Replacement for QToolButton::setTextLabel() that handles the shortcut * letter (if it is present in the argument string) as if it were a setText() * call: the shortcut letter is used to automatically assign an "Alt+" * accelerator key sequence to the given tool button. * * @note This method preserves the icon set if it was assigned before. Only * the text label and the accelerator are changed. * * @param aToolButton Tool button to set the text label on. * @param aTextLabel Text label to set. */ /* static */ void VBoxGlobal::setTextLabel (QToolButton *aToolButton, const QString &aTextLabel) { AssertReturnVoid (aToolButton != NULL); /* remember the icon set as setText() will kill it */ QIcon iset = aToolButton->icon(); /* re-use the setText() method to detect and set the accelerator */ aToolButton->setText (aTextLabel); QKeySequence accel = aToolButton->shortcut(); aToolButton->setText (aTextLabel); aToolButton->setIcon (iset); /* set the accel last as setIconSet() would kill it */ aToolButton->setShortcut (accel); } /** * Performs direct and flipped search of position for \a aRectangle to make sure * it is fully contained inside \a aBoundRegion region by moving & resizing * \a aRectangle if necessary. Selects the minimum shifted result between direct * and flipped variants. */ /* static */ QRect VBoxGlobal::normalizeGeometry (const QRect &aRectangle, const QRegion &aBoundRegion, bool aCanResize /* = true */) { /* Direct search for normalized rectangle */ QRect var1 (getNormalized (aRectangle, aBoundRegion, aCanResize)); /* Flipped search for normalized rectangle */ QRect var2 (flip (getNormalized (flip (aRectangle).boundingRect(), flip (aBoundRegion), aCanResize)).boundingRect()); /* Calculate shift from starting position for both variants */ double length1 = sqrt (pow ((double) (var1.x() - aRectangle.x()), (double) 2) + pow ((double) (var1.y() - aRectangle.y()), (double) 2)); double length2 = sqrt (pow ((double) (var2.x() - aRectangle.x()), (double) 2) + pow ((double) (var2.y() - aRectangle.y()), (double) 2)); /* Return minimum shifted variant */ return length1 > length2 ? var2 : var1; } /** * Ensures that the given rectangle \a aRectangle is fully contained within the * region \a aBoundRegion by moving \a aRectangle if necessary. If \a aRectangle is * larger than \a aBoundRegion, top left corner of \a aRectangle is aligned with the * top left corner of maximum available rectangle and, if \a aCanResize is true, * \a aRectangle is shrinked to become fully visible. */ /* static */ QRect VBoxGlobal::getNormalized (const QRect &aRectangle, const QRegion &aBoundRegion, bool /* aCanResize = true */) { /* Storing available horizontal sub-rectangles & vertical shifts */ int windowVertical = aRectangle.center().y(); QVector rectanglesVector (aBoundRegion.rects()); QList rectanglesList; QList shiftsList; foreach (QRect currentItem, rectanglesVector) { int currentDelta = qAbs (windowVertical - currentItem.center().y()); int shift2Top = currentItem.top() - aRectangle.top(); int shift2Bot = currentItem.bottom() - aRectangle.bottom(); int itemPosition = 0; foreach (QRect item, rectanglesList) { int delta = qAbs (windowVertical - item.center().y()); if (delta > currentDelta) break; else ++ itemPosition; } rectanglesList.insert (itemPosition, currentItem); int shift2TopPos = 0; foreach (int shift, shiftsList) if (qAbs (shift) > qAbs (shift2Top)) break; else ++ shift2TopPos; shiftsList.insert (shift2TopPos, shift2Top); int shift2BotPos = 0; foreach (int shift, shiftsList) if (qAbs (shift) > qAbs (shift2Bot)) break; else ++ shift2BotPos; shiftsList.insert (shift2BotPos, shift2Bot); } /* Trying to find the appropriate place for window */ QRect result; for (int i = -1; i < shiftsList.size(); ++ i) { /* Move to appropriate vertical */ QRect rectangle (aRectangle); if (i >= 0) rectangle.translate (0, shiftsList [i]); /* Search horizontal shift */ int maxShift = 0; foreach (QRect item, rectanglesList) { QRect trectangle (rectangle.translated (item.left() - rectangle.left(), 0)); if (!item.intersects (trectangle)) continue; if (rectangle.left() < item.left()) { int shift = item.left() - rectangle.left(); maxShift = qAbs (shift) > qAbs (maxShift) ? shift : maxShift; } else if (rectangle.right() > item.right()) { int shift = item.right() - rectangle.right(); maxShift = qAbs (shift) > qAbs (maxShift) ? shift : maxShift; } } /* Shift across the horizontal direction */ rectangle.translate (maxShift, 0); /* Check the translated rectangle to feat the rules */ if (aBoundRegion.united (rectangle) == aBoundRegion) result = rectangle; if (!result.isNull()) break; } if (result.isNull()) { /* Resize window to feat desirable size * using max of available rectangles */ QRect maxRectangle; quint64 maxSquare = 0; foreach (QRect item, rectanglesList) { quint64 square = item.width() * item.height(); if (square > maxSquare) { maxSquare = square; maxRectangle = item; } } result = aRectangle; result.moveTo (maxRectangle.x(), maxRectangle.y()); if (maxRectangle.right() < result.right()) result.setRight (maxRectangle.right()); if (maxRectangle.bottom() < result.bottom()) result.setBottom (maxRectangle.bottom()); } return result; } /** * Returns the flipped (transposed) region. */ /* static */ QRegion VBoxGlobal::flip (const QRegion &aRegion) { QRegion result; QVector rectangles (aRegion.rects()); foreach (QRect rectangle, rectangles) result += QRect (rectangle.y(), rectangle.x(), rectangle.height(), rectangle.width()); return result; } /** * Aligns the center of \a aWidget with the center of \a aRelative. * * If necessary, \a aWidget's position is adjusted to make it fully visible * within the available desktop area. If \a aWidget is bigger then this area, * it will also be resized unless \a aCanResize is false or there is an * inappropriate minimum size limit (in which case the top left corner will be * simply aligned with the top left corner of the available desktop area). * * \a aWidget must be a top-level widget. \a aRelative may be any widget, but * if it's not top-level itself, its top-level widget will be used for * calculations. \a aRelative can also be NULL, in which case \a aWidget will * be centered relative to the available desktop area. */ /* static */ void VBoxGlobal::centerWidget (QWidget *aWidget, QWidget *aRelative, bool aCanResize /* = true */) { AssertReturnVoid (aWidget); AssertReturnVoid (aWidget->isTopLevel()); QRect deskGeo, parentGeo; QWidget *w = aRelative; if (w) { w = w->window(); deskGeo = QApplication::desktop()->availableGeometry (w); parentGeo = w->frameGeometry(); /* On X11/Gnome, geo/frameGeo.x() and y() are always 0 for top level * widgets with parents, what a shame. Use mapToGlobal() to workaround. */ QPoint d = w->mapToGlobal (QPoint (0, 0)); d.rx() -= w->geometry().x() - w->x(); d.ry() -= w->geometry().y() - w->y(); parentGeo.moveTopLeft (d); } else { deskGeo = QApplication::desktop()->availableGeometry(); parentGeo = deskGeo; } /* On X11, there is no way to determine frame geometry (including WM * decorations) before the widget is shown for the first time. Stupidly * enumerate other top level widgets to find the thickest frame. The code * is based on the idea taken from QDialog::adjustPositionInternal(). */ int extraw = 0, extrah = 0; QWidgetList list = QApplication::topLevelWidgets(); QListIterator it (list); while ((extraw == 0 || extrah == 0) && it.hasNext()) { int framew, frameh; QWidget *current = it.next(); if (!current->isVisible()) continue; framew = current->frameGeometry().width() - current->width(); frameh = current->frameGeometry().height() - current->height(); extraw = qMax (extraw, framew); extrah = qMax (extrah, frameh); } /// @todo (r=dmik) not sure if we really need this #if 0 /* sanity check for decoration frames. With embedding, we * might get extraordinary values */ if (extraw == 0 || extrah == 0 || extraw > 20 || extrah > 50) { extrah = 50; extraw = 20; } #endif /* On non-X11 platforms, the following would be enough instead of the * above workaround: */ // QRect geo = frameGeometry(); QRect geo = QRect (0, 0, aWidget->width() + extraw, aWidget->height() + extrah); geo.moveCenter (QPoint (parentGeo.x() + (parentGeo.width() - 1) / 2, parentGeo.y() + (parentGeo.height() - 1) / 2)); /* ensure the widget is within the available desktop area */ QRect newGeo = normalizeGeometry (geo, deskGeo, aCanResize); #ifdef Q_WS_MAC /* No idea why, but Qt doesn't respect if there is a unified toolbar on the * ::move call. So manually add the height of the toolbar before setting * the position. */ if (w) newGeo.translate (0, ::darwinWindowToolBarHeight (aWidget)); #endif /* Q_WS_MAC */ aWidget->move (newGeo.topLeft()); if (aCanResize && (geo.width() != newGeo.width() || geo.height() != newGeo.height())) aWidget->resize (newGeo.width() - extraw, newGeo.height() - extrah); } /** * Returns the decimal separator for the current locale. */ /* static */ QChar VBoxGlobal::decimalSep() { return QLocale::system().decimalPoint(); } /** * Returns the regexp string that defines the format of the human-readable * size representation, ####[.##] B|KB|MB|GB|TB|PB. * * This regexp will capture 5 groups of text: * - cap(1): integer number in case when no decimal point is present * (if empty, it means that decimal point is present) * - cap(2): size suffix in case when no decimal point is present (may be empty) * - cap(3): integer number in case when decimal point is present (may be empty) * - cap(4): fraction number (hundredth) in case when decimal point is present * - cap(5): size suffix in case when decimal point is present (note that * B cannot appear there) */ /* static */ QString VBoxGlobal::sizeRegexp() { QString regexp = QString ("^(?:(?:(\\d+)(?:\\s?(%2|%3|%4|%5|%6|%7))?)|(?:(\\d*)%1(\\d{1,2})(?:\\s?(%3|%4|%5|%6|%7))))$") .arg (decimalSep()) .arg (tr ("B", "size suffix Bytes")) .arg (tr ("KB", "size suffix KBytes=1024 Bytes")) .arg (tr ("MB", "size suffix MBytes=1024 KBytes")) .arg (tr ("GB", "size suffix GBytes=1024 MBytes")) .arg (tr ("TB", "size suffix TBytes=1024 GBytes")) .arg (tr ("PB", "size suffix PBytes=1024 TBytes")); return regexp; } /* static */ QString VBoxGlobal::toHumanReadableList(const QStringList &list) { QString strList; for (int i = 0; i < list.size(); ++i) { strList += list.at(i); if (i < list.size() - 1) strList += + " "; } return strList; } /** * Parses the given size string that should be in form of * ####[.##] B|KB|MB|GB|TB|PB and returns * the size value in bytes. Zero is returned on error. */ /* static */ quint64 VBoxGlobal::parseSize (const QString &aText) { QRegExp regexp (sizeRegexp()); int pos = regexp.indexIn (aText); if (pos != -1) { QString intgS = regexp.cap (1); QString hundS; QString suff = regexp.cap (2); if (intgS.isEmpty()) { intgS = regexp.cap (3); hundS = regexp.cap (4); suff = regexp.cap (5); } quint64 denom = 0; if (suff.isEmpty() || suff == tr ("B", "size suffix Bytes")) denom = 1; else if (suff == tr ("KB", "size suffix KBytes=1024 Bytes")) denom = _1K; else if (suff == tr ("MB", "size suffix MBytes=1024 KBytes")) denom = _1M; else if (suff == tr ("GB", "size suffix GBytes=1024 MBytes")) denom = _1G; else if (suff == tr ("TB", "size suffix TBytes=1024 GBytes")) denom = _1T; else if (suff == tr ("PB", "size suffix PBytes=1024 TBytes")) denom = _1P; quint64 intg = intgS.toULongLong(); if (denom == 1) return intg; quint64 hund = hundS.leftJustified (2, '0').toULongLong(); hund = hund * denom / 100; intg = intg * denom + hund; return intg; } else return 0; } /** * Formats the given @a aSize value in bytes to a human readable string * in form of ####[.##] B|KB|MB|GB|TB|PB. * * The @a aMode and @a aDecimal parameters are used for rounding the resulting * number when converting the size value to KB, MB, etc gives a fractional part: *

When \a aMode is FormatSize_Round, the result is rounded to the * closest number containing \a aDecimal decimal digits. *
When \a aMode is FormatSize_RoundDown, the result is rounded to the * largest number with \a aDecimal decimal digits that is not greater than * the result. This guarantees that converting the resulting string back to * the integer value in bytes will not produce a value greater that the * initial size parameter. *
When \a aMode is FormatSize_RoundUp, the result is rounded to the * smallest number with \a aDecimal decimal digits that is not less than the * result. This guarantees that converting the resulting string back to the * integer value in bytes will not produce a value less that the initial * size parameter. *

* * @param aSize Size value in bytes. * @param aMode Conversion mode. * @param aDecimal Number of decimal digits in result. * @return Human-readable size string. */ /* static */ QString VBoxGlobal::formatSize (quint64 aSize, uint aDecimal /* = 2 */, FormatSize aMode /* = FormatSize_Round */) { static QString Suffixes [7]; Suffixes[0] = tr ("B", "size suffix Bytes"); Suffixes[1] = tr ("KB", "size suffix KBytes=1024 Bytes"); Suffixes[2] = tr ("MB", "size suffix MBytes=1024 KBytes"); Suffixes[3] = tr ("GB", "size suffix GBytes=1024 MBytes"); Suffixes[4] = tr ("TB", "size suffix TBytes=1024 GBytes"); Suffixes[5] = tr ("PB", "size suffix PBytes=1024 TBytes"); Suffixes[6] = (const char *)NULL; AssertCompile(6 < RT_ELEMENTS (Suffixes)); quint64 denom = 0; int suffix = 0; if (aSize < _1K) { denom = 1; suffix = 0; } else if (aSize < _1M) { denom = _1K; suffix = 1; } else if (aSize < _1G) { denom = _1M; suffix = 2; } else if (aSize < _1T) { denom = _1G; suffix = 3; } else if (aSize < _1P) { denom = _1T; suffix = 4; } else { denom = _1P; suffix = 5; } quint64 intg = aSize / denom; quint64 decm = aSize % denom; quint64 mult = 1; for (uint i = 0; i < aDecimal; ++ i) mult *= 10; QString number; if (denom > 1) { if (decm) { decm *= mult; /* not greater */ if (aMode == FormatSize_RoundDown) decm = decm / denom; /* not less */ else if (aMode == FormatSize_RoundUp) decm = (decm + denom - 1) / denom; /* nearest */ else decm = (decm + denom / 2) / denom; } /* check for the fractional part overflow due to rounding */ if (decm == mult) { decm = 0; ++ intg; /* check if we've got 1024 XB after rounding and scale down if so */ if (intg == 1024 && Suffixes [suffix + 1] != NULL) { intg /= 1024; ++ suffix; } } number = QString::number (intg); if (aDecimal) number += QString ("%1%2").arg (decimalSep()) .arg (QString::number (decm).rightJustified (aDecimal, '0')); } else { number = QString::number (intg); } return QString ("%1 %2").arg (number).arg (Suffixes [suffix]); } /** * Returns the required video memory in bytes for the current desktop * resolution at maximum possible screen depth in bpp. */ /* static */ quint64 VBoxGlobal::requiredVideoMemory(const QString &strGuestOSTypeId, int cMonitors /* = 1 */) { QDesktopWidget *pDW = QApplication::desktop(); /* We create a list of the size of all available host monitors. This list * is sorted by value and by starting with the biggest one, we calculate * the memory requirements for every guest screen. This is of course not * correct, but as we can't predict on which host screens the user will * open the guest windows, this is the best assumption we can do, cause it * is the worst case. */ QVector screenSize(qMax(cMonitors, pDW->numScreens()), 0); for (int i = 0; i < pDW->numScreens(); ++i) { QRect r = pDW->screenGeometry(i); screenSize[i] = r.width() * r.height(); } /* Now sort the vector */ qSort(screenSize.begin(), screenSize.end(), qGreater()); /* For the case that there are more guest screens configured then host * screens available, replace all zeros with the greatest value in the * vector. */ for (int i = 0; i < screenSize.size(); ++i) if (screenSize.at(i) == 0) screenSize.replace(i, screenSize.at(0)); quint64 needBits = 0; for (int i = 0; i < cMonitors; ++i) { /* Calculate summary required memory amount in bits */ needBits += (screenSize.at(i) * /* with x height */ 32 + /* we will take the maximum possible bpp for now */ 8 * _1M) + /* current cache per screen - may be changed in future */ 8 * 4096; /* adapter info */ } /* Translate value into megabytes with rounding to highest side */ quint64 needMBytes = needBits % (8 * _1M) ? needBits / (8 * _1M) + 1 : needBits / (8 * _1M) /* convert to megabytes */; if (strGuestOSTypeId.startsWith("Windows")) { /* Windows guests need offscreen VRAM too for graphics acceleration features: */ #ifdef VBOX_WITH_CRHGSMI if (isWddmCompatibleOsType(strGuestOSTypeId)) { /* wddm mode, there are two surfaces for each screen: shadow & primary */ needMBytes *= 3; } else #endif /* VBOX_WITH_CRHGSMI */ { needMBytes *= 2; } } return needMBytes * _1M; } /** * Puts soft hyphens after every path component in the given file name. * * @param aFileName File name (must be a full path name). */ /* static */ QString VBoxGlobal::locationForHTML (const QString &aFileName) { /// @todo (dmik) remove? // QString result = QDir::toNativeSeparators (fn); //#ifdef Q_OS_LINUX // result.replace ('/', "/"); //#else // result.replace ('\\', "\\"); //#endif // return result; QFileInfo fi (aFileName); return fi.fileName(); } /** * Reformats the input string @a aStr so that: * - strings in single quotes will be put inside and marked * with blue color; * - UUIDs be put inside and marked * with green color; * - replaces new line chars with

constructs to form paragraphs * (note that

and

are not appended to the beginning and to the * end of the string respectively, to allow the result be appended * or prepended to the existing paragraph). * * If @a aToolTip is true, colouring is not applied, only the tag * is added. Also, new line chars are replaced with
instead of

. */ /* static */ QString VBoxGlobal::highlight (const QString &aStr, bool aToolTip /* = false */) { QString strFont; QString uuidFont; QString endFont; if (!aToolTip) { strFont = ""; uuidFont = ""; endFont = ""; } QString text = aStr; /* replace special entities, '&' -- first! */ text.replace ('&', "&"); text.replace ('<', "<"); text.replace ('>', ">"); text.replace ('\"', """); /* mark strings in single quotes with color */ QRegExp rx = QRegExp ("((?:^|\\s)[(]?)'([^']*)'(?=[:.-!);]?(?:\\s|$))"); rx.setMinimal (true); text.replace (rx, QString ("\\1%1'\\2'%2").arg (strFont).arg (endFont)); /* mark UUIDs with color */ text.replace (QRegExp ( "((?:^|\\s)[(]?)" "(\\{[0-9A-Fa-f]{8}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{12}\\})" "(?=[:.-!);]?(?:\\s|$))"), QString ("\\1%1\\2%2").arg (uuidFont).arg (endFont)); /* split to paragraphs at \n chars */ if (!aToolTip) text.replace ('\n', "

"); else text.replace ('\n', "
"); return text; } /* static */ QString VBoxGlobal::replaceHtmlEntities(QString strText) { return strText .replace('&', "&") .replace('<', "<") .replace('>', ">") .replace('\"', """); } /** * Reformats the input string @a aStr so that: * - strings in single quotes will be put inside and marked * with bold style; * - UUIDs be put inside and marked * with italic style; * - replaces new line chars with

constructs to form paragraphs * (note that

and

are not appended to the beginning and to the * end of the string respectively, to allow the result be appended * or prepended to the existing paragraph). */ /* static */ QString VBoxGlobal::emphasize (const QString &aStr) { QString strEmphStart (""); QString strEmphEnd (""); QString uuidEmphStart (""); QString uuidEmphEnd (""); QString text = aStr; /* replace special entities, '&' -- first! */ text.replace ('&', "&"); text.replace ('<', "<"); text.replace ('>', ">"); text.replace ('\"', """); /* mark strings in single quotes with bold style */ QRegExp rx = QRegExp ("((?:^|\\s)[(]?)'([^']*)'(?=[:.-!);]?(?:\\s|$))"); rx.setMinimal (true); text.replace (rx, QString ("\\1%1'\\2'%2").arg (strEmphStart).arg (strEmphEnd)); /* mark UUIDs with italic style */ text.replace (QRegExp ( "((?:^|\\s)[(]?)" "(\\{[0-9A-Fa-f]{8}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{12}\\})" "(?=[:.-!);]?(?:\\s|$))"), QString ("\\1%1\\2%2").arg (uuidEmphStart).arg (uuidEmphEnd)); /* split to paragraphs at \n chars */ text.replace ('\n', "

"); return text; } /** * This does exactly the same as QLocale::system().name() but corrects its * wrong behavior on Linux systems (LC_NUMERIC for some strange reason takes * precedence over any other locale setting in the QLocale::system() * implementation). This implementation first looks at LC_ALL (as defined by * SUS), then looks at LC_MESSAGES which is designed to define a language for * program messages in case if it differs from the language for other locale * categories. Then it looks for LANG and finally falls back to * QLocale::system().name(). * * The order of precedence is well defined here: * http://opengroup.org/onlinepubs/007908799/xbd/envvar.html * * @note This method will return "C" when the requested locale is invalid or * when the "C" locale is set explicitly. */ /* static */ QString VBoxGlobal::systemLanguageId() { #if defined (Q_WS_MAC) /* QLocale return the right id only if the user select the format of the * language also. So we use our own implementation */ return ::darwinSystemLanguage(); #elif defined (Q_OS_UNIX) const char *s = RTEnvGet ("LC_ALL"); if (s == 0) s = RTEnvGet ("LC_MESSAGES"); if (s == 0) s = RTEnvGet ("LANG"); if (s != 0) return QLocale (s).name(); #endif return QLocale::system().name(); } #if defined (Q_WS_X11) static char *XXGetProperty (Display *aDpy, Window aWnd, Atom aPropType, const char *aPropName) { Atom propNameAtom = XInternAtom (aDpy, aPropName, True /* only_if_exists */); if (propNameAtom == None) return NULL; Atom actTypeAtom = None; int actFmt = 0; unsigned long nItems = 0; unsigned long nBytesAfter = 0; unsigned char *propVal = NULL; int rc = XGetWindowProperty (aDpy, aWnd, propNameAtom, 0, LONG_MAX, False /* delete */, aPropType, &actTypeAtom, &actFmt, &nItems, &nBytesAfter, &propVal); if (rc != Success) return NULL; return reinterpret_cast (propVal); } static Bool XXSendClientMessage (Display *aDpy, Window aWnd, const char *aMsg, unsigned long aData0 = 0, unsigned long aData1 = 0, unsigned long aData2 = 0, unsigned long aData3 = 0, unsigned long aData4 = 0) { Atom msgAtom = XInternAtom (aDpy, aMsg, True /* only_if_exists */); if (msgAtom == None) return False; XEvent ev; ev.xclient.type = ClientMessage; ev.xclient.serial = 0; ev.xclient.send_event = True; ev.xclient.display = aDpy; ev.xclient.window = aWnd; ev.xclient.message_type = msgAtom; /* always send as 32 bit for now */ ev.xclient.format = 32; ev.xclient.data.l [0] = aData0; ev.xclient.data.l [1] = aData1; ev.xclient.data.l [2] = aData2; ev.xclient.data.l [3] = aData3; ev.xclient.data.l [4] = aData4; return XSendEvent (aDpy, DefaultRootWindow (aDpy), False, SubstructureRedirectMask, &ev) != 0; } #endif /** * Activates the specified window. If necessary, the window will be * de-iconified activation. * * @note On X11, it is implied that @a aWid represents a window of the same * display the application was started on. * * @param aWId Window ID to activate. * @param aSwitchDesktop @c true to switch to the window's desktop before * activation. * * @return @c true on success and @c false otherwise. */ /* static */ bool VBoxGlobal::activateWindow (WId aWId, bool aSwitchDesktop /* = true */) { bool result = true; #if defined (Q_WS_WIN32) if (IsIconic (aWId)) result &= !!ShowWindow (aWId, SW_RESTORE); else if (!IsWindowVisible (aWId)) result &= !!ShowWindow (aWId, SW_SHOW); result &= !!SetForegroundWindow (aWId); #elif defined (Q_WS_X11) Display *dpy = QX11Info::display(); if (aSwitchDesktop) { /* try to find the desktop ID using the NetWM property */ CARD32 *desktop = (CARD32 *) XXGetProperty (dpy, aWId, XA_CARDINAL, "_NET_WM_DESKTOP"); if (desktop == NULL) /* if the NetWM properly is not supported try to find the desktop * ID using the GNOME WM property */ desktop = (CARD32 *) XXGetProperty (dpy, aWId, XA_CARDINAL, "_WIN_WORKSPACE"); if (desktop != NULL) { Bool ok = XXSendClientMessage (dpy, DefaultRootWindow (dpy), "_NET_CURRENT_DESKTOP", *desktop); if (!ok) { LogWarningFunc (("Couldn't switch to desktop=%08X\n", desktop)); result = false; } XFree (desktop); } else { LogWarningFunc (("Couldn't find a desktop ID for aWId=%08X\n", aWId)); result = false; } } Bool ok = XXSendClientMessage (dpy, aWId, "_NET_ACTIVE_WINDOW"); result &= !!ok; XRaiseWindow (dpy, aWId); #else NOREF (aWId); NOREF (aSwitchDesktop); AssertFailed(); result = false; #endif if (!result) LogWarningFunc (("Couldn't activate aWId=%08X\n", aWId)); return result; } /** * Removes the accelerator mark (the ampersand symbol) from the given string * and returns the result. The string is supposed to be a menu item's text * that may (or may not) contain the accelerator mark. * * In order to support accelerators used in non-alphabet languages * (e.g. Japanese) that has a form of "(&)" (where is a latin letter), * this method first searches for this pattern and, if found, removes it as a * whole. If such a pattern is not found, then the '&' character is simply * removed from the string. * * @note This function removes only the first occurrence of the accelerator * mark. * * @param aText Menu item's text to remove the accelerator mark from. * * @return The resulting string. */ /* static */ QString VBoxGlobal::removeAccelMark (const QString &aText) { QString result = aText; QRegExp accel ("\$&[a-zA-Z]\$"); int pos = accel.indexIn (result); if (pos >= 0) result.remove (pos, accel.cap().length()); else { pos = result.indexOf ('&'); if (pos >= 0) result.remove (pos, 1); } return result; } /* static */ QString VBoxGlobal::insertKeyToActionText(const QString &strText, const QString &strKey) { #ifdef Q_WS_MAC QString pattern("%1 (Host+%2)"); #else QString pattern("%1 \tHost+%2"); #endif if ( strKey.isEmpty() || strKey.compare("None", Qt::CaseInsensitive) == 0) return strText; else return pattern.arg(strText).arg(QKeySequence(strKey).toString(QKeySequence::NativeText)); } /* static */ QString VBoxGlobal::extractKeyFromActionText (const QString &aText) { QString key; #ifdef Q_WS_MAC QRegExp re (".* \$Host\\+(.+)\$"); #else QRegExp re (".* \\t\\Host\\+(.+)"); #endif if (re.exactMatch (aText)) key = re.cap (1); return key; } /** * Joins two pixmaps horizontally with 2px space between them and returns the * result. * * @param aPM1 Left pixmap. * @param aPM2 Right pixmap. */ /* static */ QPixmap VBoxGlobal::joinPixmaps (const QPixmap &aPM1, const QPixmap &aPM2) { if (aPM1.isNull()) return aPM2; if (aPM2.isNull()) return aPM1; QPixmap result (aPM1.width() + aPM2.width() + 2, qMax (aPM1.height(), aPM2.height())); result.fill (Qt::transparent); QPainter painter (&result); painter.drawPixmap (0, 0, aPM1); painter.drawPixmap (aPM1.width() + 2, result.height() - aPM2.height(), aPM2); painter.end(); return result; } /** * Searches for a widget that with @a aName (if it is not NULL) which inherits * @a aClassName (if it is not NULL) and among children of @a aParent. If @a * aParent is NULL, all top-level widgets are searched. If @a aRecursive is * true, child widgets are recursively searched as well. */ /* static */ QWidget *VBoxGlobal::findWidget (QWidget *aParent, const char *aName, const char *aClassName /* = NULL */, bool aRecursive /* = false */) { if (aParent == NULL) { QWidgetList list = QApplication::topLevelWidgets(); foreach(QWidget *w, list) { if ((!aName || strcmp (w->objectName().toAscii().constData(), aName) == 0) && (!aClassName || strcmp (w->metaObject()->className(), aClassName) == 0)) return w; if (aRecursive) { w = findWidget (w, aName, aClassName, aRecursive); if (w) return w; } } return NULL; } /* Find the first children of aParent with the appropriate properties. * Please note that this call is recursively. */ QList list = qFindChildren (aParent, aName); foreach(QWidget *child, list) { if (!aClassName || strcmp (child->metaObject()->className(), aClassName) == 0) return child; } return NULL; } /** * Figures out which medium formats are currently supported by VirtualBox for * the given device type. * Returned is a list of pairs with the form * {"Backend Name", "*.suffix1 .suffix2 ..."}. */ /* static */ QList > VBoxGlobal::MediumBackends(KDeviceType enmType) { CSystemProperties systemProperties = vboxGlobal().virtualBox().GetSystemProperties(); QVector mediumFormats = systemProperties.GetMediumFormats(); QList< QPair > backendPropList; for (int i = 0; i < mediumFormats.size(); ++ i) { /* File extensions */ QVector fileExtensions; QVector deviceTypes; mediumFormats [i].DescribeFileExtensions(fileExtensions, deviceTypes); QStringList f; for (int a = 0; a < fileExtensions.size(); ++ a) if (deviceTypes [a] == enmType) f << QString ("*.%1").arg (fileExtensions [a]); /* Create a pair out of the backend description and all suffix's. */ if (!f.isEmpty()) backendPropList << QPair (mediumFormats [i].GetName(), f.join(" ")); } return backendPropList; } /** * Figures out which hard disk formats are currently supported by VirtualBox. * Returned is a list of pairs with the form * {"Backend Name", "*.suffix1 .suffix2 ..."}. */ /* static */ QList > VBoxGlobal::HDDBackends() { return MediumBackends(KDeviceType_HardDisk); } /** * Figures out which CD/DVD disk formats are currently supported by VirtualBox. * Returned is a list of pairs with the form * {"Backend Name", "*.suffix1 .suffix2 ..."}. */ /* static */ QList > VBoxGlobal::DVDBackends() { return MediumBackends(KDeviceType_DVD); } /** * Figures out which floppy disk formats are currently supported by VirtualBox. * Returned is a list of pairs with the form * {"Backend Name", "*.suffix1 .suffix2 ..."}. */ /* static */ QList > VBoxGlobal::FloppyBackends() { return MediumBackends(KDeviceType_Floppy); } /* static */ QString VBoxGlobal::documentsPath() { QString path; #if QT_VERSION < 0x040400 path = QDir::homePath(); #else path = QDesktopServices::storageLocation (QDesktopServices::DocumentsLocation); #endif /* Make sure the path exists */ QDir dir (path); if (dir.exists()) return QDir::cleanPath (dir.canonicalPath()); else { dir.setPath (QDir::homePath() + "/Documents"); if (dir.exists()) return QDir::cleanPath (dir.canonicalPath()); else return QDir::homePath(); } } #ifdef VBOX_WITH_VIDEOHWACCEL /* static */ bool VBoxGlobal::isAcceleration2DVideoAvailable() { return VBoxQGLOverlay::isAcceleration2DVideoAvailable(); } /** additional video memory required for the best 2D support performance * total amount of VRAM required is thus calculated as requiredVideoMemory + required2DOffscreenVideoMemory */ /* static */ quint64 VBoxGlobal::required2DOffscreenVideoMemory() { return VBoxQGLOverlay::required2DOffscreenVideoMemory(); } #endif #ifdef VBOX_WITH_CRHGSMI /* static */ quint64 VBoxGlobal::required3DWddmOffscreenVideoMemory(const QString &strGuestOSTypeId, int cMonitors /* = 1 */) { cMonitors = RT_MAX(cMonitors, 1); quint64 cbSize = VBoxGlobal::requiredVideoMemory(strGuestOSTypeId, 1); /* why not cMonitors? */ cbSize += 64 * _1M; return cbSize; } /* static */ bool VBoxGlobal::isWddmCompatibleOsType(const QString &strGuestOSTypeId) { return strGuestOSTypeId.startsWith("WindowsVista") || strGuestOSTypeId.startsWith("Windows7") || strGuestOSTypeId.startsWith("Windows8") || strGuestOSTypeId.startsWith("Windows2008"); } #endif /* VBOX_WITH_CRHGSMI */ #ifdef Q_WS_MAC bool VBoxGlobal::isSheetWindowAllowed(QWidget *pParent) const { /* Make sure Mac Sheet is not used for the same parent now. */ if (sheetWindowUsed(pParent)) return false; /* No sheets for fullscreen/seamless now. * Firstly it looks ugly and secondly in some cases it is broken. */ if (!(qobject_cast(pParent) || qobject_cast(pParent))) return true; return false; } void VBoxGlobal::setSheetWindowUsed(QWidget *pParent, bool fUsed) { if (fUsed) { AssertMsg(!m_sheets.contains(pParent), ("Trying to use Mac Sheet for parent which already has one!")); if (m_sheets.contains(pParent)) return; } else { AssertMsg(m_sheets.contains(pParent), ("Trying to cancel use Mac Sheet for parent which has no one!")); if (!m_sheets.contains(pParent)) return; } if (fUsed) m_sheets.insert(pParent); else m_sheets.remove(pParent); } bool VBoxGlobal::sheetWindowUsed(QWidget *pParent) const { return m_sheets.contains(pParent); } #endif /* Q_WS_MAC */ /* static */ QString VBoxGlobal::fullMediumFormatName(const QString &strBaseMediumFormatName) { if (strBaseMediumFormatName == "VDI") return tr("VDI (VirtualBox Disk Image)"); else if (strBaseMediumFormatName == "VMDK") return tr("VMDK (Virtual Machine Disk)"); else if (strBaseMediumFormatName == "VHD") return tr("VHD (Virtual Hard Disk)"); else if (strBaseMediumFormatName == "Parallels") return tr("HDD (Parallels Hard Disk)"); else if (strBaseMediumFormatName == "QED") return tr("QED (QEMU enhanced disk)"); else if (strBaseMediumFormatName == "QCOW") return tr("QCOW (QEMU Copy-On-Write)"); return strBaseMediumFormatName; } // Public slots //////////////////////////////////////////////////////////////////////////////// /** * Opens the specified URL using OS/Desktop capabilities. * * @param aURL URL to open * * @return true on success and false otherwise */ bool VBoxGlobal::openURL (const QString &aURL) { /* Service event */ class ServiceEvent : public QEvent { public: ServiceEvent (bool aResult) : QEvent (QEvent::User), mResult (aResult) {} bool result() const { return mResult; } private: bool mResult; }; /* Service-Client object */ class ServiceClient : public QEventLoop { public: ServiceClient() : mResult (false) {} bool result() const { return mResult; } private: bool event (QEvent *aEvent) { if (aEvent->type() == QEvent::User) { ServiceEvent *pEvent = static_cast (aEvent); mResult = pEvent->result(); pEvent->accept(); quit(); return true; } return false; } bool mResult; }; /* Service-Server object */ class ServiceServer : public QThread { public: ServiceServer (ServiceClient &aClient, const QString &sURL) : mClient (aClient), mURL (sURL) {} private: void run() { QApplication::postEvent (&mClient, new ServiceEvent (QDesktopServices::openUrl (mURL))); } ServiceClient &mClient; const QString &mURL; }; ServiceClient client; ServiceServer server (client, aURL); server.start(); client.exec(); server.wait(); bool result = client.result(); if (!result) msgCenter().cannotOpenURL (aURL); return result; } /** * Shows the VirtualBox registration dialog. * * @note that this method is not part of UIMessageCenter (like e.g. * UIMessageCenter::sltShowHelpAboutDialog()) because it is tied to * VBoxCallback::OnExtraDataChange() handling performed by VBoxGlobal. * * @param aForce */ void VBoxGlobal::showRegistrationDialog (bool aForce) { NOREF(aForce); #ifdef VBOX_WITH_REGISTRATION if (!aForce && !UIRegistrationWzd::hasToBeShown()) return; if (mRegDlg) { /* Show the already opened registration dialog */ mRegDlg->setWindowState (mRegDlg->windowState() & ~Qt::WindowMinimized); mRegDlg->raise(); mRegDlg->activateWindow(); } else { /* Store the ID of the main window to ensure that only one * registration dialog is shown at a time. Due to manipulations with * OnExtraDataCanChange() and OnExtraDataChange() signals, this extra * data item acts like an inter-process mutex, so the first process * that attempts to set it will win, the rest will get a failure from * the SetExtraData() call. */ mVBox.SetExtraData (GUI_RegistrationDlgWinID, QString ("%1").arg ((qulonglong) mMainWindow->winId())); if (mVBox.isOk()) { /* We've got the "mutex", create a new registration dialog */ UIRegistrationWzd *dlg = new UIRegistrationWzd (&mRegDlg); dlg->setAttribute (Qt::WA_DeleteOnClose); Assert (dlg == mRegDlg); mRegDlg->show(); } } #endif } void VBoxGlobal::sltGUILanguageChange(QString strLang) { loadLanguage(strLang); } void VBoxGlobal::sltProcessGlobalSettingChange() { /* Reload proxy settings: */ reloadProxySettings(); } // Protected members //////////////////////////////////////////////////////////////////////////////// bool VBoxGlobal::event (QEvent *e) { switch (e->type()) { case MediaEnumEventType: { VBoxMediaEnumEvent *ev = (VBoxMediaEnumEvent*) e; if (!ev->mLast) { if (ev->mMedium.state() == KMediumState_Inaccessible && !ev->mMedium.result().isOk()) msgCenter().cannotGetMediaAccessibility (ev->mMedium); Assert (ev->mIterator != mMediaList.end()); *(ev->mIterator) = ev->mMedium; emit mediumEnumerated (*ev->mIterator); } else { /* the thread has posted the last message, wait for termination */ mMediaEnumThread->wait(); delete mMediaEnumThread; mMediaEnumThread = 0; emit mediumEnumFinished (mMediaList); } return true; } default: break; } return QObject::event (e); } bool VBoxGlobal::eventFilter (QObject *aObject, QEvent *aEvent) { if (aEvent->type() == QEvent::LanguageChange && aObject->isWidgetType() && static_cast (aObject)->isTopLevel()) { /* Catch the language change event before any other widget gets it in * order to invalidate cached string resources (like the details view * templates) that may be used by other widgets. */ QWidgetList list = QApplication::topLevelWidgets(); if (list.first() == aObject) { /* call this only once per every language change (see * QApplication::installTranslator() for details) */ retranslateUi(); } } return QObject::eventFilter (aObject, aEvent); } #ifdef VBOX_WITH_DEBUGGER_GUI bool VBoxGlobal::isDebuggerEnabled(CMachine &aMachine) { return isDebuggerWorker(&mDbgEnabled, aMachine, GUI_DbgEnabled); } bool VBoxGlobal::isDebuggerAutoShowEnabled(CMachine &aMachine) { return isDebuggerWorker(&mDbgAutoShow, aMachine, GUI_DbgAutoShow); } bool VBoxGlobal::isDebuggerAutoShowCommandLineEnabled(CMachine &aMachine) { return isDebuggerWorker(&mDbgAutoShowCommandLine, aMachine, GUI_DbgAutoShow); } bool VBoxGlobal::isDebuggerAutoShowStatisticsEnabled(CMachine &aMachine) { return isDebuggerWorker(&mDbgAutoShowStatistics, aMachine, GUI_DbgAutoShow); } #endif /* VBOX_WITH_DEBUGGER_GUI */ // Private members //////////////////////////////////////////////////////////////////////////////// bool VBoxGlobal::processArgs() { bool fResult = false; QStringList args = qApp->arguments(); QList list; for (int i = 1; i < args.size(); ++i) { /* We break out after the first parameter, cause there could be parameters with arguments (e.g. --comment comment). */ if (args.at(i).startsWith("-")) break; #ifdef Q_WS_MAC QString strArg = ::darwinResolveAlias(args.at(i)); #else /* Q_WS_MAC */ QString strArg = args.at(i); #endif /* !Q_WS_MAC */ if ( !strArg.isEmpty() && QFile::exists(strArg)) list << QUrl::fromLocalFile(strArg); } if (!list.isEmpty()) { for (int i = 0; i < list.size(); ++i) { const QString& strFile = list.at(i).toLocalFile(); if (VBoxGlobal::hasAllowedExtension(strFile, VBoxFileExts)) { CVirtualBox vbox = vboxGlobal().virtualBox(); CMachine machine = vbox.FindMachine(strFile); if (!machine.isNull()) { fResult = true; launchMachine(machine); /* Remove from the arg list. */ list.removeAll(strFile); } } } } if (!list.isEmpty()) { m_ArgUrlList = list; QTimer::singleShot(0, &vboxGlobal().selectorWnd(), SLOT(sltOpenUrls())); } return fResult; } void VBoxGlobal::init() { #ifdef DEBUG mVerString += " [DEBUG]"; #endif HRESULT rc = COMBase::InitializeCOM(true); if (FAILED (rc)) { #ifdef VBOX_WITH_XPCOM if (rc == NS_ERROR_FILE_ACCESS_DENIED) { char szHome[RTPATH_MAX] = ""; com::GetVBoxUserHomeDirectory(szHome, sizeof(szHome)); msgCenter().cannotInitUserHome(QString(szHome)); } else #endif msgCenter().cannotInitCOM(rc); return; } mVBox.createInstance (CLSID_VirtualBox); if (!mVBox.isOk()) { msgCenter().cannotCreateVirtualBox (mVBox); return; } mHost = virtualBox().GetHost(); #ifdef VBOX_WITH_CROGL m3DAvailable = VBoxOglIs3DAccelerationSupported(); #else m3DAvailable = false; #endif /* create default non-null global settings */ gset = VBoxGlobalSettings (false); /* try to load global settings */ gset.load (mVBox); if (!mVBox.isOk() || !gset) { msgCenter().cannotLoadGlobalConfig (mVBox, gset.lastError()); return; } /* Load the customized language as early as possible to get possible error * messages translated */ QString sLanguageId = gset.languageId(); if (!sLanguageId.isNull()) loadLanguage (sLanguageId); retranslateUi(); connect(gEDataEvents, SIGNAL(sigGUILanguageChange(QString)), this, SLOT(sltGUILanguageChange(QString))); #ifdef VBOX_GUI_WITH_SYSTRAY { /* Increase open Fe/Qt4 windows reference count. */ int c = mVBox.GetExtraData (GUI_MainWindowCount).toInt() + 1; AssertMsgReturnVoid ((c >= 0) || (mVBox.isOk()), ("Something went wrong with the window reference count!")); mVBox.SetExtraData (GUI_MainWindowCount, QString ("%1").arg (c)); mIncreasedWindowCounter = mVBox.isOk(); AssertReturnVoid (mIncreasedWindowCounter); } #endif /* Initialize guest OS Type list. */ CGuestOSTypeVector coll = mVBox.GetGuestOSTypes(); int osTypeCount = coll.size(); AssertMsg (osTypeCount > 0, ("Number of OS types must not be zero")); if (osTypeCount > 0) { /* Here we assume the 'Other' type is always the first, so we * remember it and will append it to the list when finished. */ CGuestOSType otherType = coll[0]; QString otherFamilyId (otherType.GetFamilyId()); /* Fill the lists with all the available OS Types except * the 'Other' type, which will be appended. */ for (int i = 1; i < coll.size(); ++i) { CGuestOSType os = coll[i]; QString familyId (os.GetFamilyId()); if (!mFamilyIDs.contains (familyId)) { mFamilyIDs << familyId; mTypes << QList (); } mTypes [mFamilyIDs.indexOf (familyId)].append (os); } /* Append the 'Other' OS Type to the end of list. */ if (!mFamilyIDs.contains (otherFamilyId)) { mFamilyIDs << otherFamilyId; mTypes << QList (); } mTypes [mFamilyIDs.indexOf (otherFamilyId)].append (otherType); } /* Fill in OS type icon dictionary. */ static const char *kOSTypeIcons [][2] = { {"Other", ":/os_other.png"}, {"DOS", ":/os_dos.png"}, {"Netware", ":/os_netware.png"}, {"L4", ":/os_l4.png"}, {"Windows31", ":/os_win31.png"}, {"Windows95", ":/os_win95.png"}, {"Windows98", ":/os_win98.png"}, {"WindowsMe", ":/os_winme.png"}, {"WindowsNT4", ":/os_winnt4.png"}, {"Windows2000", ":/os_win2k.png"}, {"WindowsXP", ":/os_winxp.png"}, {"WindowsXP_64", ":/os_winxp_64.png"}, {"Windows2003", ":/os_win2k3.png"}, {"Windows2003_64", ":/os_win2k3_64.png"}, {"WindowsVista", ":/os_winvista.png"}, {"WindowsVista_64", ":/os_winvista_64.png"}, {"Windows2008", ":/os_win2k8.png"}, {"Windows2008_64", ":/os_win2k8_64.png"}, {"Windows7", ":/os_win7.png"}, {"Windows7_64", ":/os_win7_64.png"}, {"Windows8", ":/os_win8.png"}, {"Windows8_64", ":/os_win8_64.png"}, {"WindowsNT", ":/os_win_other.png"}, {"OS2Warp3", ":/os_os2warp3.png"}, {"OS2Warp4", ":/os_os2warp4.png"}, {"OS2Warp45", ":/os_os2warp45.png"}, {"OS2eCS", ":/os_os2ecs.png"}, {"OS2", ":/os_os2_other.png"}, {"Linux22", ":/os_linux22.png"}, {"Linux24", ":/os_linux24.png"}, {"Linux24_64", ":/os_linux24_64.png"}, {"Linux26", ":/os_linux26.png"}, {"Linux26_64", ":/os_linux26_64.png"}, {"ArchLinux", ":/os_archlinux.png"}, {"ArchLinux_64", ":/os_archlinux_64.png"}, {"Debian", ":/os_debian.png"}, {"Debian_64", ":/os_debian_64.png"}, {"OpenSUSE", ":/os_opensuse.png"}, {"OpenSUSE_64", ":/os_opensuse_64.png"}, {"Fedora", ":/os_fedora.png"}, {"Fedora_64", ":/os_fedora_64.png"}, {"Gentoo", ":/os_gentoo.png"}, {"Gentoo_64", ":/os_gentoo_64.png"}, {"Mandriva", ":/os_mandriva.png"}, {"Mandriva_64", ":/os_mandriva_64.png"}, {"RedHat", ":/os_redhat.png"}, {"RedHat_64", ":/os_redhat_64.png"}, {"Turbolinux", ":/os_turbolinux.png"}, {"Turbolinux_64", ":/os_turbolinux_64.png"}, {"Ubuntu", ":/os_ubuntu.png"}, {"Ubuntu_64", ":/os_ubuntu_64.png"}, {"Xandros", ":/os_xandros.png"}, {"Xandros_64", ":/os_xandros_64.png"}, {"Oracle", ":/os_oracle.png"}, {"Oracle_64", ":/os_oracle_64.png"}, {"Linux", ":/os_linux_other.png"}, {"FreeBSD", ":/os_freebsd.png"}, {"FreeBSD_64", ":/os_freebsd_64.png"}, {"OpenBSD", ":/os_openbsd.png"}, {"OpenBSD_64", ":/os_openbsd_64.png"}, {"NetBSD", ":/os_netbsd.png"}, {"NetBSD_64", ":/os_netbsd_64.png"}, {"Solaris", ":/os_solaris.png"}, {"Solaris_64", ":/os_solaris_64.png"}, {"OpenSolaris", ":/os_oraclesolaris.png"}, {"OpenSolaris_64", ":/os_oraclesolaris_64.png"}, {"Solaris11_64", ":/os_oraclesolaris_64.png"}, {"QNX", ":/os_qnx.png"}, {"MacOS", ":/os_macosx.png"}, {"MacOS_64", ":/os_macosx_64.png"}, {"JRockitVE", ":/os_jrockitve.png"}, }; for (uint n = 0; n < SIZEOF_ARRAY (kOSTypeIcons); ++ n) { mOsTypeIcons.insert (kOSTypeIcons [n][0], new QPixmap (kOSTypeIcons [n][1])); } /* online/offline snapshot icons */ mOfflineSnapshotIcon = QPixmap (":/offline_snapshot_16px.png"); mOnlineSnapshotIcon = QPixmap (":/online_snapshot_16px.png"); qApp->installEventFilter (this); /* process command line */ bool bForceSeamless = false; bool bForceFullscreen = false; vm_render_mode_str = RTStrDup (virtualBox() .GetExtraData (GUI_RenderMode).toAscii().constData()); #ifdef Q_WS_X11 mIsKWinManaged = X11IsWindowManagerKWin(); #endif #ifdef VBOX_WITH_DEBUGGER_GUI # ifdef VBOX_WITH_DEBUGGER_GUI_MENU initDebuggerVar(&mDbgEnabled, "VBOX_GUI_DBG_ENABLED", GUI_DbgEnabled, true); # else initDebuggerVar(&mDbgEnabled, "VBOX_GUI_DBG_ENABLED", GUI_DbgEnabled, false); # endif initDebuggerVar(&mDbgAutoShow, "VBOX_GUI_DBG_AUTO_SHOW", GUI_DbgAutoShow, false); mDbgAutoShowCommandLine = mDbgAutoShowStatistics = mDbgAutoShow; mStartPaused = false; #endif mShowStartVMErrors = true; bool startVM = false; QString vmNameOrUuid; int argc = qApp->argc(); int i = 1; while (i < argc) { const char *arg = qApp->argv() [i]; /* NOTE: the check here must match the corresponding check for the * options to start a VM in main.cpp and hardenedmain.cpp exactly, * otherwise there will be weird error messages. */ if ( !::strcmp (arg, "--startvm") || !::strcmp (arg, "-startvm")) { if (++i < argc) { vmNameOrUuid = QString (qApp->argv() [i]); startVM = true; } } #ifdef VBOX_GUI_WITH_PIDFILE else if (!::strcmp(arg, "-pidfile") || !::strcmp(arg, "--pidfile")) { if (++i < argc) m_strPidfile = QString(qApp->argv()[i]); } #endif /* VBOX_GUI_WITH_PIDFILE */ else if (!::strcmp(arg, "-seamless") || !::strcmp(arg, "--seamless")) { bForceSeamless = true; } else if (!::strcmp(arg, "-fullscreen") || !::strcmp(arg, "--fullscreen")) { bForceFullscreen = true; } #ifdef VBOX_GUI_WITH_SYSTRAY else if (!::strcmp (arg, "-systray") || !::strcmp (arg, "--systray")) { mIsTrayMenu = true; } #endif else if (!::strcmp (arg, "-comment") || !::strcmp (arg, "--comment")) { ++i; } else if (!::strcmp (arg, "-rmode") || !::strcmp (arg, "--rmode")) { if (++i < argc) vm_render_mode_str = qApp->argv() [i]; } else if (!::strcmp (arg, "--settingspw")) { if (++i < argc) { RTStrCopy(mSettingsPw, sizeof(mSettingsPw), qApp->argv() [i]); mSettingsPwSet = true; } } else if (!::strcmp (arg, "--settingspwfile")) { if (++i < argc) { size_t cbFile; char *pszFile = qApp->argv() [i]; bool fStdIn = !::strcmp(pszFile, "stdin"); int vrc = VINF_SUCCESS; PRTSTREAM pStrm; if (!fStdIn) vrc = RTStrmOpen(pszFile, "r", &pStrm); else pStrm = g_pStdIn; if (RT_SUCCESS(vrc)) { vrc = RTStrmReadEx(pStrm, mSettingsPw, sizeof(mSettingsPw)-1, &cbFile); if (RT_SUCCESS(vrc)) { if (cbFile >= sizeof(mSettingsPw)-1) continue; else { unsigned i; for (i = 0; i < cbFile && !RT_C_IS_CNTRL(mSettingsPw[i]); i++) ; mSettingsPw[i] = '\0'; mSettingsPwSet = true; } } if (!fStdIn) RTStrmClose(pStrm); } } } else if (!::strcmp (arg, "--no-startvm-errormsgbox")) mShowStartVMErrors = false; else if (!::strcmp(arg, "--disable-patm")) mDisablePatm = true; else if (!::strcmp(arg, "--disable-csam")) mDisableCsam = true; else if (!::strcmp(arg, "--recompile-supervisor")) mRecompileSupervisor = true; else if (!::strcmp(arg, "--recompile-user")) mRecompileUser = true; else if (!::strcmp(arg, "--recompile-all")) mDisablePatm = mDisableCsam = mRecompileSupervisor = mRecompileUser = true; else if (!::strcmp(arg, "--warp-pct")) { if (++i < argc) mWarpPct = RTStrToUInt32(qApp->argv() [i]); } #ifdef VBOX_WITH_DEBUGGER_GUI else if (!::strcmp (arg, "-dbg") || !::strcmp (arg, "--dbg")) setDebuggerVar(&mDbgEnabled, true); else if (!::strcmp( arg, "-debug") || !::strcmp (arg, "--debug")) { setDebuggerVar(&mDbgEnabled, true); setDebuggerVar(&mDbgAutoShow, true); setDebuggerVar(&mDbgAutoShowCommandLine, true); setDebuggerVar(&mDbgAutoShowStatistics, true); mStartPaused = true; } else if (!::strcmp (arg, "--debug-command-line")) { setDebuggerVar(&mDbgEnabled, true); setDebuggerVar(&mDbgAutoShow, true); setDebuggerVar(&mDbgAutoShowCommandLine, true); mStartPaused = true; } else if (!::strcmp (arg, "--debug-statistics")) { setDebuggerVar(&mDbgEnabled, true); setDebuggerVar(&mDbgAutoShow, true); setDebuggerVar(&mDbgAutoShowStatistics, true); mStartPaused = true; } else if (!::strcmp (arg, "-no-debug") || !::strcmp (arg, "--no-debug")) { setDebuggerVar(&mDbgEnabled, false); setDebuggerVar(&mDbgAutoShow, false); setDebuggerVar(&mDbgAutoShowCommandLine, false); setDebuggerVar(&mDbgAutoShowStatistics, false); } /* Not quite debug options, but they're only useful with the debugger bits. */ else if (!::strcmp (arg, "--start-paused")) mStartPaused = true; else if (!::strcmp (arg, "--start-running")) mStartPaused = false; #endif /** @todo add an else { msgbox(syntax error); exit(1); } here, pretty please... */ i++; } if (startVM) { QUuid uuid = QUuid(vmNameOrUuid); if (!uuid.isNull()) { vmUuid = vmNameOrUuid; } else { CMachine m = mVBox.FindMachine (vmNameOrUuid); if (m.isNull()) { if (showStartVMErrors()) msgCenter().cannotFindMachineByName (mVBox, vmNameOrUuid); return; } vmUuid = m.GetId(); } } if (mSettingsPwSet) mVBox.SetSettingsSecret(mSettingsPw); if (bForceSeamless && !vmUuid.isEmpty()) { mVBox.FindMachine(vmUuid).SetExtraData(GUI_Seamless, "on"); } else if (bForceFullscreen && !vmUuid.isEmpty()) { mVBox.FindMachine(vmUuid).SetExtraData(GUI_Fullscreen, "on"); } vm_render_mode = vboxGetRenderMode (vm_render_mode_str); #ifdef VBOX_WITH_DEBUGGER_GUI /* setup the debugger gui. */ if (RTEnvExist("VBOX_GUI_NO_DEBUGGER")) mDbgEnabled = mDbgAutoShow = mDbgAutoShowCommandLine = mDbgAutoShowStatistics = false; if (mDbgEnabled) { RTERRINFOSTATIC ErrInfo; RTErrInfoInitStatic(&ErrInfo); int vrc = SUPR3HardenedLdrLoadAppPriv("VBoxDbg", &mhVBoxDbg, RTLDRLOAD_FLAGS_LOCAL, &ErrInfo.Core); if (RT_FAILURE(vrc)) { mhVBoxDbg = NIL_RTLDRMOD; mDbgAutoShow = mDbgAutoShowCommandLine = mDbgAutoShowStatistics = false; LogRel(("Failed to load VBoxDbg, rc=%Rrc - %s\n", vrc, ErrInfo.Core.pszMsg)); } } #endif mValid = true; UIConverter::prepare(); /* Cache IMedium data. * There could be no used mediums at all, * but this method should be run anyway just to enumerate null UIMedium object, * used by some VBox smart widgets, like VBoxMediaComboBox: */ vboxGlobal().startEnumeratingMedia(); /* Prepare global settings change handler: */ connect(&settings(), SIGNAL(propertyChanged(const char*, const char*)), this, SLOT(sltProcessGlobalSettingChange())); /* Handle global settings change for the first time: */ sltProcessGlobalSettingChange(); /* Create action pool: */ if (isVMConsoleProcess()) UIActionPoolRuntime::create(); else UIActionPoolSelector::create(); /* Create network manager: */ UINetworkManager::create(); /* Schedule update manager: */ UIUpdateManager::schedule(); } /** @internal * * This method should be never called directly. It is called automatically * when the application terminates. */ void VBoxGlobal::cleanup() { /* Shutdown update manager: */ UIUpdateManager::shutdown(); /* Destroy network manager: */ UINetworkManager::destroy(); /* Destroy action pool: */ if (isVMConsoleProcess()) UIActionPoolRuntime::destroy(); else UIActionPoolSelector::destroy(); /* sanity check */ if (!sVBoxGlobalInCleanup) { AssertMsgFailed (("Should never be called directly\n")); return; } #ifdef VBOX_GUI_WITH_SYSTRAY if (mIncreasedWindowCounter) { /* Decrease open Fe/Qt4 windows reference count. */ int c = mVBox.GetExtraData (GUI_MainWindowCount).toInt() - 1; AssertMsg ((c >= 0) || (mVBox.isOk()), ("Something went wrong with the window reference count!")); if (c < 0) c = 0; /* Clean up the mess. */ mVBox.SetExtraData (GUI_MainWindowCount, (c > 0) ? QString ("%1").arg (c) : NULL); AssertWrapperOk (mVBox); if (c == 0) { mVBox.SetExtraData (GUI_TrayIconWinID, NULL); AssertWrapperOk (mVBox); } } #endif #ifdef VBOX_GUI_WITH_PIDFILE deletePidfile(); #endif /* Destroy our event handlers */ UIExtraDataEventHandler::destroy(); /* Cleanup medium enumeration thread: */ if (mMediaEnumThread) { /* sVBoxGlobalInCleanup is true here, so just wait for the thread */ mMediaEnumThread->wait(); delete mMediaEnumThread; mMediaEnumThread = 0; } #ifdef VBOX_WITH_REGISTRATION if (mRegDlg) mRegDlg->close(); #endif if (mSelectorWnd) delete mSelectorWnd; if (m_pVirtualMachine) delete m_pVirtualMachine; UIConverter::cleanup(); /* ensure CGuestOSType objects are no longer used */ mFamilyIDs.clear(); mTypes.clear(); /* media list contains a lot of CUUnknown, release them */ mMediaList.clear(); /* the last steps to ensure we don't use COM any more */ mHost.detach(); mVBox.detach(); /* There may be VBoxMediaEnumEvent instances still in the message * queue which reference COM objects. Remove them to release those objects * before uninitializing the COM subsystem. */ QApplication::removePostedEvents (this); COMBase::CleanupCOM(); mValid = false; } #ifdef VBOX_WITH_DEBUGGER_GUI # define VBOXGLOBAL_DBG_CFG_VAR_FALSE (0) # define VBOXGLOBAL_DBG_CFG_VAR_TRUE (1) # define VBOXGLOBAL_DBG_CFG_VAR_MASK (1) # define VBOXGLOBAL_DBG_CFG_VAR_CMD_LINE RT_BIT(3) # define VBOXGLOBAL_DBG_CFG_VAR_DONE RT_BIT(4) /** * Initialize a debugger config variable. * * @param piDbgCfgVar The debugger config variable to init. * @param pszEnvVar The environment variable name relating to this * variable. * @param pszExtraDataName The extra data name relating to this variable. * @param fDefault The default value. */ void VBoxGlobal::initDebuggerVar(int *piDbgCfgVar, const char *pszEnvVar, const char *pszExtraDataName, bool fDefault) { QString strEnvValue; char szEnvValue[256]; int rc = RTEnvGetEx(RTENV_DEFAULT, pszEnvVar, szEnvValue, sizeof(szEnvValue), NULL); if (RT_SUCCESS(rc)) { strEnvValue = QString::fromUtf8(&szEnvValue[0]).toLower().trimmed(); if (strEnvValue.isEmpty()) strEnvValue = "yes"; } else if (rc != VERR_ENV_VAR_NOT_FOUND) strEnvValue = "veto"; QString strExtraValue = mVBox.GetExtraData(pszExtraDataName).toLower().trimmed(); if (strExtraValue.isEmpty()) strExtraValue = QString(); if ( strEnvValue.contains("veto") || strExtraValue.contains("veto")) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_DONE | VBOXGLOBAL_DBG_CFG_VAR_FALSE; else if (strEnvValue.isNull() && strExtraValue.isNull()) *piDbgCfgVar = fDefault ? VBOXGLOBAL_DBG_CFG_VAR_TRUE : VBOXGLOBAL_DBG_CFG_VAR_FALSE; else { QString *pStr = !strEnvValue.isEmpty() ? &strEnvValue : &strExtraValue; if ( pStr->startsWith("y") // yes || pStr->startsWith("e") // enabled || pStr->startsWith("t") // true || pStr->startsWith("on") || pStr->toLongLong() != 0) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_TRUE; else if ( pStr->startsWith("n") // o || pStr->startsWith("d") // disable || pStr->startsWith("f") // false || pStr->startsWith("off") || pStr->contains("veto") || pStr->toLongLong() == 0) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_FALSE; else { LogFunc(("Ignoring unknown value '%s' for '%s'\n", pStr->toAscii().constData(), pStr == &strEnvValue ? pszEnvVar : pszExtraDataName)); *piDbgCfgVar = fDefault ? VBOXGLOBAL_DBG_CFG_VAR_TRUE : VBOXGLOBAL_DBG_CFG_VAR_FALSE; } } } /** * Set a debugger config variable according according to start up argument. * * @param piDbgCfgVar The debugger config variable to set. * @param fState The value from the command line. */ void VBoxGlobal::setDebuggerVar(int *piDbgCfgVar, bool fState) { if (!(*piDbgCfgVar & VBOXGLOBAL_DBG_CFG_VAR_DONE)) *piDbgCfgVar = (fState ? VBOXGLOBAL_DBG_CFG_VAR_TRUE : VBOXGLOBAL_DBG_CFG_VAR_FALSE) | VBOXGLOBAL_DBG_CFG_VAR_CMD_LINE; } /** * Checks the state of a debugger config variable, updating it with the machine * settings on the first invocation. * * @returns true / false. * @param piDbgCfgVar The debugger config variable to consult. * @param rMachine Reference to the machine object. * @param pszExtraDataName The extra data name relating to this variable. */ bool VBoxGlobal::isDebuggerWorker(int *piDbgCfgVar, CMachine &rMachine, const char *pszExtraDataName) { if (!(*piDbgCfgVar & VBOXGLOBAL_DBG_CFG_VAR_DONE) && !rMachine.isNull()) { QString str = mVBox.GetExtraData(pszExtraDataName).toLower().trimmed(); if (str.contains("veto")) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_DONE | VBOXGLOBAL_DBG_CFG_VAR_FALSE; else if (str.isEmpty() || (*piDbgCfgVar & VBOXGLOBAL_DBG_CFG_VAR_CMD_LINE)) *piDbgCfgVar |= VBOXGLOBAL_DBG_CFG_VAR_DONE; else if ( str.startsWith("y") // yes || str.startsWith("e") // enabled || str.startsWith("t") // true || str.startsWith("on") || str.toLongLong() != 0) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_DONE | VBOXGLOBAL_DBG_CFG_VAR_TRUE; else if ( str.startsWith("n") // no || str.startsWith("d") // disable || str.startsWith("f") // false || str.toLongLong() == 0) *piDbgCfgVar = VBOXGLOBAL_DBG_CFG_VAR_DONE | VBOXGLOBAL_DBG_CFG_VAR_FALSE; else *piDbgCfgVar |= VBOXGLOBAL_DBG_CFG_VAR_DONE; } return (*piDbgCfgVar & VBOXGLOBAL_DBG_CFG_VAR_MASK) == VBOXGLOBAL_DBG_CFG_VAR_TRUE; } #endif /* VBOX_WITH_DEBUGGER_GUI */ /** @fn vboxGlobal * * Shortcut to the static VBoxGlobal::instance() method, for convenience. */ bool VBoxGlobal::switchToMachine(CMachine &machine) { #ifdef Q_WS_MAC ULONG64 id = machine.ShowConsoleWindow(); #else WId id = (WId) machine.ShowConsoleWindow(); #endif AssertWrapperOk(machine); if (!machine.isOk()) return false; /* winId = 0 it means the console window has already done everything * necessary to implement the "show window" semantics. */ if (id == 0) return true; #if defined (Q_WS_WIN32) || defined (Q_WS_X11) return vboxGlobal().activateWindow(id, true); #elif defined (Q_WS_MAC) /* * This is just for the case were the other process cannot steal * the focus from us. It will send us a PSN so we can try. */ ProcessSerialNumber psn; psn.highLongOfPSN = id >> 32; psn.lowLongOfPSN = (UInt32)id; OSErr rc = ::SetFrontProcess(&psn); if (!rc) Log(("GUI: %#RX64 couldn't do SetFrontProcess on itself, the selector (we) had to do it...\n", id)); else Log(("GUI: Failed to bring %#RX64 to front. rc=%#x\n", id, rc)); return !rc; #endif return false; /// @todo Below is the old method of switching to the console window // based on the process ID of the console process. It should go away // after the new (callback-based) method is fully tested. #if 0 if (!canSwitchTo()) return false; #if defined (Q_WS_WIN32) HWND hwnd = mWinId; /* if there are blockers (modal and modeless dialogs, etc), find the * topmost one */ HWND hwndAbove = NULL; do { hwndAbove = GetNextWindow(hwnd, GW_HWNDPREV); HWND hwndOwner; if (hwndAbove != NULL && ((hwndOwner = GetWindow(hwndAbove, GW_OWNER)) == hwnd || hwndOwner == hwndAbove)) hwnd = hwndAbove; else break; } while (1); /* first, check that the primary window is visible */ if (IsIconic(mWinId)) ShowWindow(mWinId, SW_RESTORE); else if (!IsWindowVisible(mWinId)) ShowWindow(mWinId, SW_SHOW); #if 0 LogFlowFunc(("mWinId=%08X hwnd=%08X\n", mWinId, hwnd)); #endif /* then, activate the topmost in the group */ AllowSetForegroundWindow(m_pid); SetForegroundWindow(hwnd); return true; #elif defined (Q_WS_X11) return false; #elif defined (Q_WS_MAC) ProcessSerialNumber psn; OSStatus rc = ::GetProcessForPID(m_pid, &psn); if (!rc) { rc = ::SetFrontProcess(&psn); if (!rc) { ShowHideProcess(&psn, true); return true; } } return false; #else return false; #endif #endif } bool VBoxGlobal::launchMachine(CMachine &machine, bool fHeadless /* = false */) { if (machine.CanShowConsoleWindow()) return VBoxGlobal::switchToMachine(machine); KMachineState state = machine.GetState(); NOREF(state); AssertMsg( state == KMachineState_PoweredOff || state == KMachineState_Saved || state == KMachineState_Teleported || state == KMachineState_Aborted , ("Machine must be PoweredOff/Saved/Aborted (%d)", state)); CVirtualBox vbox = vboxGlobal().virtualBox(); CSession session; session.createInstance(CLSID_Session); if (session.isNull()) { msgCenter().cannotOpenSession(session); return false; } #if defined(Q_OS_WIN32) /* allow the started VM process to make itself the foreground window */ AllowSetForegroundWindow(ASFW_ANY); #endif QString env; #if defined(Q_WS_X11) /* make sure the VM process will start on the same display as the Selector */ const char *display = RTEnvGet("DISPLAY"); if (display) env.append(QString("DISPLAY=%1\n").arg(display)); const char *xauth = RTEnvGet("XAUTHORITY"); if (xauth) env.append(QString("XAUTHORITY=%1\n").arg(xauth)); #endif const QString strType = fHeadless ? "headless" : "GUI/Qt"; CProgress progress = machine.LaunchVMProcess(session, strType, env); if ( !vbox.isOk() || progress.isNull()) { msgCenter().cannotOpenSession(vbox, machine); return false; } /* Hide the "VM spawning" progress dialog */ /* I hope 1 minute will be enough to spawn any running VM silently, isn't it? */ int iSpawningDuration = 60000; msgCenter().showModalProgressDialog(progress, machine.GetName(), "", 0, false, iSpawningDuration); if (progress.GetResultCode() != 0) msgCenter().cannotOpenSession(vbox, machine, progress); session.UnlockMachine(); return true; }