/* Copyright 2020 Samuel Mannehed for Cendio AB * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, * USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #define XK_MISCELLANY #include #include #include #include "i18n.h" #include "Win32TouchHandler.h" static rfb::LogWriter vlog("Win32TouchHandler"); static const DWORD MOUSEMOVE_FLAGS = MOUSEEVENTF_MOVE | MOUSEEVENTF_ABSOLUTE | MOUSEEVENTF_VIRTUALDESK; static const unsigned SINGLE_PAN_THRESHOLD = 50; Win32TouchHandler::Win32TouchHandler(HWND hWnd) : hWnd(hWnd), gesturesConfigured(false), gestureActive(false), ignoringGesture(false), fakeButtonMask(0) { // If window is registered as touch we can not receive gestures, // this should not happen if (IsTouchWindow(hWnd, NULL)) throw rfb::Exception(_("Window is registered for touch instead of gestures")); // We will not receive any touch/gesture events if this service // isn't running - Logging is enough if (!GetSystemMetrics(SM_DIGITIZER)) vlog.debug("The 'Tablet PC Input' service is required for touch"); // When we have less than two touch points we won't receive all // gesture events - Logging is enough int supportedTouches = GetSystemMetrics(SM_MAXIMUMTOUCHES); if (supportedTouches < 2) vlog.debug("Two touch points required, system currently supports: %d", supportedTouches); } bool Win32TouchHandler::processEvent(UINT Msg, WPARAM /*wParam*/, LPARAM lParam) { GESTUREINFO gi; DWORD panWant = GC_PAN_WITH_SINGLE_FINGER_VERTICALLY | GC_PAN_WITH_SINGLE_FINGER_HORIZONTALLY | GC_PAN; DWORD panBlock = GC_PAN_WITH_INERTIA | GC_PAN_WITH_GUTTER; GESTURECONFIG gc[] = {{GID_ZOOM, GC_ZOOM, 0}, {GID_PAN, panWant, panBlock}, {GID_TWOFINGERTAP, GC_TWOFINGERTAP, 0}}; switch(Msg) { case WM_GESTURENOTIFY: if (gesturesConfigured) return false; if (!SetGestureConfig(hWnd, 0, 3, gc, sizeof(GESTURECONFIG))) { vlog.error(_("Failed to set gesture configuration (error 0x%x)"), (int)GetLastError()); } gesturesConfigured = true; // Windows expects all handler functions to always // pass this message on, and not consume it return false; case WM_GESTURE: ZeroMemory(&gi, sizeof(GESTUREINFO)); gi.cbSize = sizeof(GESTUREINFO); if (!GetGestureInfo((HGESTUREINFO)lParam, &gi)) { vlog.error(_("Failed to get gesture information (error 0x%x)"), (int)GetLastError()); return true; } handleWin32GestureEvent(gi); CloseGestureInfoHandle((HGESTUREINFO)lParam); return true; } return false; } void Win32TouchHandler::handleWin32GestureEvent(GESTUREINFO gi) { GestureEvent gev; POINT pos; if (gi.dwID == GID_BEGIN) { // FLTK gets very confused if the cursor position is outside // of the window when getting mouse events, so we start by // moving the cursor to something proper. // FIXME: Only do this when necessary? // FIXME: There is some odd delay before Windows fully updates // the state of the cursor position. By doing it here in // GID_BEGIN we hope to do it early enough that we don't // get any odd effects. // FIXME: GF_BEGIN position can differ from GID_BEGIN pos. SetCursorPos(gi.ptsLocation.x, gi.ptsLocation.y); return; } else if (gi.dwID == GID_END) { gestureActive = false; ignoringGesture = false; return; } // The GID_BEGIN msg means that no fingers were previously touching, // and a completely new set of gestures is beginning. // The GF_BEGIN flag means a new type of gesture was detected. This // flag can be set on a msg when changing between gestures within // one set of touches. // // We don't support dynamically changing between gestures // without lifting the finger(s). if ((gi.dwFlags & GF_BEGIN) && gestureActive) ignoringGesture = true; if (ignoringGesture) return; if (gi.dwFlags & GF_BEGIN) { gev.type = GestureBegin; } else if (gi.dwFlags & GF_END) { gev.type = GestureEnd; } else { gev.type = GestureUpdate; } // Convert to relative coordinates pos.x = gi.ptsLocation.x; pos.y = gi.ptsLocation.y; ScreenToClient(gi.hwndTarget, &pos); gev.eventX = pos.x; gev.eventY = pos.y; switch(gi.dwID) { case GID_ZOOM: gev.gesture = GesturePinch; if (gi.dwFlags & GF_BEGIN) { gestureStart.x = pos.x; gestureStart.y = pos.y; } else { gev.eventX = gestureStart.x; gev.eventY = gestureStart.y; } gev.magnitudeX = gi.ullArguments; gev.magnitudeY = 0; break; case GID_PAN: if (isSinglePan(gi)) { if (gi.dwFlags & GF_BEGIN) { gestureStart.x = pos.x; gestureStart.y = pos.y; startedSinglePan = false; } // FIXME: Add support for sending a OneFingerTap gesture here. // When the movement was very small and we get a GF_END // within a short time we should consider it a tap. if (!startedSinglePan && ((unsigned)abs(gestureStart.x - pos.x) < SINGLE_PAN_THRESHOLD) && ((unsigned)abs(gestureStart.y - pos.y) < SINGLE_PAN_THRESHOLD)) return; // Here we know we got a single pan! // Change the first GestureUpdate to GestureBegin // after we passed the threshold if (!startedSinglePan) { startedSinglePan = true; gev.type = GestureBegin; gev.eventX = gestureStart.x; gev.eventY = gestureStart.y; } gev.gesture = GestureDrag; } else { if (gi.dwFlags & GF_BEGIN) { gestureStart.x = pos.x; gestureStart.y = pos.y; gev.magnitudeX = 0; gev.magnitudeY = 0; } else { gev.eventX = gestureStart.x; gev.eventY = gestureStart.y; gev.magnitudeX = pos.x - gestureStart.x; gev.magnitudeY = pos.y - gestureStart.y; } gev.gesture = GestureTwoDrag; } break; case GID_TWOFINGERTAP: gev.gesture = GestureTwoTap; break; } gestureActive = true; BaseTouchHandler::handleGestureEvent(gev); // Since we have a threshold for GestureDrag we need to generate // a second event right away with the current position if ((gev.type == GestureBegin) && (gev.gesture == GestureDrag)) { gev.type = GestureUpdate; gev.eventX = pos.x; gev.eventY = pos.y; BaseTouchHandler::handleGestureEvent(gev); } // FLTK tends to reset the cursor to the real position so we // need to make sure that we update that position if (gev.type == GestureEnd) { POINT expectedPos; POINT currentPos; expectedPos = lastFakeMotionPos; ClientToScreen(hWnd, &expectedPos); GetCursorPos(¤tPos); if ((expectedPos.x != currentPos.x) || (expectedPos.y != currentPos.y)) SetCursorPos(expectedPos.x, expectedPos.y); } } bool Win32TouchHandler::isSinglePan(GESTUREINFO gi) { // To differentiate between a single and a double pan we can look // at ullArguments. This shows the distance between the touch points, // but in the case of single pan, it seems to show the monitor's // origin value (this is not documented by microsoft). This origin // value seems to be relative to the screen's position in a multi // monitor setup. For example if the touch monitor is secondary and // positioned to the left of the primary, the origin is negative. // // To use this we need to get the monitor's origin value and check // if it is the same as ullArguments. If they match, we have a // single pan. POINT coordinates; HMONITOR monitorHandler; MONITORINFO mi; LONG lowestX; // Find the monitor with the touch event coordinates.x = gi.ptsLocation.x; coordinates.y = gi.ptsLocation.y; monitorHandler = MonitorFromPoint(coordinates, MONITOR_DEFAULTTOPRIMARY); // Find the monitor's origin ZeroMemory(&mi, sizeof(MONITORINFO)); mi.cbSize = sizeof(MONITORINFO); GetMonitorInfo(monitorHandler, &mi); lowestX = mi.rcMonitor.left; return lowestX == (LONG)gi.ullArguments; } void Win32TouchHandler::fakeMotionEvent(const GestureEvent origEvent) { UINT Msg = WM_MOUSEMOVE; WPARAM wParam = MAKEWPARAM(fakeButtonMask, 0); LPARAM lParam = MAKELPARAM(origEvent.eventX, origEvent.eventY); pushFakeEvent(Msg, wParam, lParam); lastFakeMotionPos.x = origEvent.eventX; lastFakeMotionPos.y = origEvent.eventY; } void Win32TouchHandler::fakeButtonEvent(bool press, int button, const GestureEvent origEvent) { UINT Msg; WPARAM wParam; LPARAM lParam; int delta; switch (button) { case 1: // left mousebutton if (press) { Msg = WM_LBUTTONDOWN; fakeButtonMask |= MK_LBUTTON; } else { Msg = WM_LBUTTONUP; fakeButtonMask &= ~MK_LBUTTON; } break; case 2: // middle mousebutton if (press) { Msg = WM_MBUTTONDOWN; fakeButtonMask |= MK_MBUTTON; } else { Msg = WM_MBUTTONUP; fakeButtonMask &= ~MK_MBUTTON; } break; case 3: // right mousebutton if (press) { Msg = WM_RBUTTONDOWN; fakeButtonMask |= MK_RBUTTON; } else { Msg = WM_RBUTTONUP; fakeButtonMask &= ~MK_RBUTTON; } break; case 4: // scroll up Msg = WM_MOUSEWHEEL; delta = WHEEL_DELTA; break; case 5: // scroll down Msg = WM_MOUSEWHEEL; delta = -WHEEL_DELTA; break; case 6: // scroll left Msg = WM_MOUSEHWHEEL; delta = -WHEEL_DELTA; break; case 7: // scroll right Msg = WM_MOUSEHWHEEL; delta = WHEEL_DELTA; break; default: vlog.error(_("Invalid mouse button %d, must be a number between 1 and 7."), button); return; } if (1 <= button && button <= 3) { wParam = MAKEWPARAM(fakeButtonMask, 0); // Regular mouse events expect client coordinates lParam = MAKELPARAM(origEvent.eventX, origEvent.eventY); } else { POINT pos; // Only act on wheel press, not on release if (!press) return; wParam = MAKEWPARAM(fakeButtonMask, delta); // Wheel events require screen coordinates pos.x = (LONG)origEvent.eventX; pos.y = (LONG)origEvent.eventY; ClientToScreen(hWnd, &pos); lParam = MAKELPARAM(pos.x, pos.y); } pushFakeEvent(Msg, wParam, lParam); } void Win32TouchHandler::fakeKeyEvent(bool press, int keysym, const GestureEvent /*origEvent*/) { UINT Msg = press ? WM_KEYDOWN : WM_KEYUP; WPARAM wParam; LPARAM lParam; int vKey; int scanCode; int previousKeyState = press ? 0 : 1; int transitionState = press ? 0 : 1; switch(keysym) { case XK_Control_L: vKey = VK_CONTROL; scanCode = 0x1d; if (press) fakeButtonMask |= MK_CONTROL; else fakeButtonMask &= ~MK_CONTROL; break; // BaseTouchHandler will currently not send SHIFT but we keep it for // completeness sake. This way we have coverage for all wParam's MK_-bits. case XK_Shift_L: vKey = VK_SHIFT; scanCode = 0x2a; if (press) fakeButtonMask |= MK_SHIFT; else fakeButtonMask &= ~MK_SHIFT; break; default: //FIXME: consider adding generic handling vlog.error(_("Unhandled key 0x%x - can't generate keyboard event."), keysym); return; } wParam = MAKEWPARAM(vKey, 0); scanCode <<= 0; previousKeyState <<= 14; transitionState <<= 15; lParam = MAKELPARAM(1, // RepeatCount (scanCode | previousKeyState | transitionState)); pushFakeEvent(Msg, wParam, lParam); } void Win32TouchHandler::pushFakeEvent(UINT Msg, WPARAM wParam, LPARAM lParam) { PostMessage(hWnd, Msg, wParam, lParam); }