/** * SPDX-FileCopyrightText: 2018 Albert Vaca Cintora * SPDX-FileCopyrightText: 2014 Ahmed I. Khalil * * SPDX-License-Identifier: GPL-2.0-only OR GPL-3.0-only OR LicenseRef-KDE-Accepted-GPL */ #include "x11remoteinput.h" #include #include #include #include #include #include enum MouseButtons { LeftMouseButton = 1, MiddleMouseButton = 2, RightMouseButton = 3, MouseWheelUp = 4, MouseWheelDown = 5, }; // Translation table to keep in sync within all the implementations int SpecialKeysMap[] = { 0, // Invalid XK_BackSpace, // 1 XK_Tab, // 2 XK_Linefeed, // 3 XK_Left, // 4 XK_Up, // 5 XK_Right, // 6 XK_Down, // 7 XK_Page_Up, // 8 XK_Page_Down, // 9 XK_Home, // 10 XK_End, // 11 XK_Return, // 12 XK_Delete, // 13 XK_Escape, // 14 XK_Sys_Req, // 15 XK_Scroll_Lock, // 16 0, // 17 0, // 18 0, // 19 0, // 20 XK_F1, // 21 XK_F2, // 22 XK_F3, // 23 XK_F4, // 24 XK_F5, // 25 XK_F6, // 26 XK_F7, // 27 XK_F8, // 28 XK_F9, // 29 XK_F10, // 30 XK_F11, // 31 XK_F12, // 32 }; template size_t arraySize(T (&arr)[N]) { (void)arr; return N; } X11RemoteInput::X11RemoteInput(QObject *parent) : AbstractRemoteInput(parent) , m_fakekey(nullptr) { } X11RemoteInput::~X11RemoteInput() { if (m_fakekey) { free(m_fakekey); m_fakekey = nullptr; } } bool isLeftHanded(Display *display) { unsigned char map[20]; int num_buttons = XGetPointerMapping(display, map, 20); if (num_buttons == 1) { return false; } else if (num_buttons == 2) { return ((int)map[0] == 2 && (int)map[1] == 1); } else { return ((int)map[0] == 3 && (int)map[2] == 1); } } bool X11RemoteInput::handlePacket(const NetworkPacket &np) { float dx = np.get(QStringLiteral("dx"), 0); float dy = np.get(QStringLiteral("dy"), 0); bool isSingleClick = np.get(QStringLiteral("singleclick"), false); bool isDoubleClick = np.get(QStringLiteral("doubleclick"), false); bool isMiddleClick = np.get(QStringLiteral("middleclick"), false); bool isRightClick = np.get(QStringLiteral("rightclick"), false); bool isSingleHold = np.get(QStringLiteral("singlehold"), false); bool isSingleRelease = np.get(QStringLiteral("singlerelease"), false); bool isScroll = np.get(QStringLiteral("scroll"), false); QString key = np.get(QStringLiteral("key"), QLatin1String("")); int specialKey = np.get(QStringLiteral("specialKey"), 0); if (isSingleClick || isDoubleClick || isMiddleClick || isRightClick || isSingleHold || isSingleRelease || isScroll || !key.isEmpty() || specialKey) { Display *display = QX11Info::display(); if (!display) { return false; } bool leftHanded = isLeftHanded(display); int mainMouseButton = leftHanded ? RightMouseButton : LeftMouseButton; int secondaryMouseButton = leftHanded ? LeftMouseButton : RightMouseButton; if (isSingleClick) { XTestFakeButtonEvent(display, mainMouseButton, True, 0); XTestFakeButtonEvent(display, mainMouseButton, False, 0); } else if (isDoubleClick) { XTestFakeButtonEvent(display, mainMouseButton, True, 0); XTestFakeButtonEvent(display, mainMouseButton, False, 0); XTestFakeButtonEvent(display, mainMouseButton, True, 0); XTestFakeButtonEvent(display, mainMouseButton, False, 0); } else if (isMiddleClick) { XTestFakeButtonEvent(display, MiddleMouseButton, True, 0); XTestFakeButtonEvent(display, MiddleMouseButton, False, 0); } else if (isRightClick) { XTestFakeButtonEvent(display, secondaryMouseButton, True, 0); XTestFakeButtonEvent(display, secondaryMouseButton, False, 0); } else if (isSingleHold) { // For drag'n drop XTestFakeButtonEvent(display, mainMouseButton, True, 0); } else if (isSingleRelease) { XTestFakeButtonEvent(display, mainMouseButton, False, 0); } else if (isScroll) { if (dy < 0) { XTestFakeButtonEvent(display, MouseWheelDown, True, 0); XTestFakeButtonEvent(display, MouseWheelDown, False, 0); } else if (dy > 0) { XTestFakeButtonEvent(display, MouseWheelUp, True, 0); XTestFakeButtonEvent(display, MouseWheelUp, False, 0); } } else if (!key.isEmpty() || specialKey) { bool ctrl = np.get(QStringLiteral("ctrl"), false); bool alt = np.get(QStringLiteral("alt"), false); bool shift = np.get(QStringLiteral("shift"), false); bool super = np.get(QStringLiteral("super"), false); if (ctrl) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Control_L), True, 0); if (alt) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Alt_L), True, 0); if (shift) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Shift_L), True, 0); if (super) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Super_L), True, 0); if (specialKey) { if (specialKey >= (int)arraySize(SpecialKeysMap)) { qWarning() << "Unsupported special key identifier"; return false; } int keycode = XKeysymToKeycode(display, SpecialKeysMap[specialKey]); XTestFakeKeyEvent(display, keycode, True, 0); XTestFakeKeyEvent(display, keycode, False, 0); } else { if (!m_fakekey) { m_fakekey = fakekey_init(display); if (!m_fakekey) { qWarning() << "Failed to initialize libfakekey"; return false; } } // We use fakekey here instead of XTest (above) because it can handle utf characters instead of keycodes. for (int i = 0; i < key.length(); i++) { QByteArray utf8 = QString(key.at(i)).toUtf8(); fakekey_press(m_fakekey, (const uchar *)utf8.constData(), utf8.size(), 0); fakekey_release(m_fakekey); } } if (ctrl) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Control_L), False, 0); if (alt) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Alt_L), False, 0); if (shift) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Shift_L), False, 0); if (super) XTestFakeKeyEvent(display, XKeysymToKeycode(display, XK_Super_L), False, 0); } XFlush(display); } else { // Is a mouse move event QPoint point = QCursor::pos(); QCursor::setPos(point.x() + (int)dx, point.y() + (int)dy); } return true; } bool X11RemoteInput::hasKeyboardSupport() { return true; } #include "moc_x11remoteinput.cpp"