/* Copyright (C) 2002-2005 RealVNC Ltd. All Rights Reserved. * Copyright 2011 Pierre Ossman 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 #include #include #include #include #include #include #include #include "DesktopWindow.h" #include "OptionsDialog.h" #include "i18n.h" #include "parameters.h" #include "vncviewer.h" #include "CConn.h" #include "Surface.h" #include "Viewport.h" #include "touch.h" #include #include #include #include #include #ifdef WIN32 #include "win32.h" #endif #ifdef __APPLE__ #include "cocoa.h" #include #endif // width of each "edge" region where scrolling happens, // as a ratio compared to the viewport size // default: 1/16th of the viewport size #define EDGE_SCROLL_SIZE 16 // edge width is calculated at runtime; these values are just examples static int edge_scroll_size_x = 128; static int edge_scroll_size_y = 96; // maximum pixels to scroll per frame #define EDGE_SCROLL_SPEED 16 // how long to wait between viewport scroll position changes // default: roughly 60 fps for smooth motion #define EDGE_SCROLL_SECONDS_PER_FRAME 0.016666 using namespace rfb; static rfb::LogWriter vlog("DesktopWindow"); // Global due to http://www.fltk.org/str.php?L2177 and the similar // issue for Fl::event_dispatch. static std::set instances; DesktopWindow::DesktopWindow(int w, int h, const char *name, const rfb::PixelFormat& serverPF, CConn* cc_) : Fl_Window(w, h), cc(cc_), offscreen(nullptr), overlay(nullptr), firstUpdate(true), delayedFullscreen(false), delayedDesktopSize(false), keyboardGrabbed(false), mouseGrabbed(false), statsLastUpdates(0), statsLastPixels(0), statsLastPosition(0), statsGraph(nullptr) { Fl_Group* group; // Dummy group to prevent FLTK from moving our widgets around group = new Fl_Group(0, 0, w, h); group->resizable(nullptr); resizable(group); viewport = new Viewport(w, h, serverPF, cc); // Position will be adjusted later hscroll = new Fl_Scrollbar(0, 0, 0, 0); vscroll = new Fl_Scrollbar(0, 0, 0, 0); hscroll->type(FL_HORIZONTAL); hscroll->callback(handleScroll, this); vscroll->callback(handleScroll, this); group->end(); callback(handleClose, this); setName(name); OptionsDialog::addCallback(handleOptions, this); // Some events need to be caught globally if (instances.size() == 0) Fl::add_handler(fltkHandle); instances.insert(this); // Hack. See below... Fl::event_dispatch(fltkDispatch); // Support for -geometry option. Note that although we do support // negative coordinates, we do not support -XOFF-YOFF (ie // coordinates relative to the right edge / bottom edge) at this // time. int geom_x = 0, geom_y = 0; if (strcmp(geometry, "") != 0) { int matched; matched = sscanf((const char*)geometry, "+%d+%d", &geom_x, &geom_y); if (matched == 2) { force_position(1); } else { int geom_w, geom_h; matched = sscanf((const char*)geometry, "%dx%d+%d+%d", &geom_w, &geom_h, &geom_x, &geom_y); switch (matched) { case 4: force_position(1); /* fall through */ case 2: w = geom_w; h = geom_h; break; default: geom_x = geom_y = 0; vlog.error(_("Invalid geometry specified!")); } } } // Many window managers don't properly resize overly large windows, // so we'll have to do some sanity checks ourselves here int sx, sy, sw, sh; if (force_position()) { Fl::screen_work_area(sx, sy, sw, sh, geom_x, geom_y); } else { int mx, my; // If we don't explicitly request a position then we don't know which // monitor the window manager might place us on. Assume the popular // behaviour of following the cursor. Fl::get_mouse(mx, my); Fl::screen_work_area(sx, sy, sw, sh, mx, my); } if ((w > sw) || (h > sh)) { vlog.info(_("Reducing window size to fit on current monitor")); if (w > sw) w = sw; if (h > sh) h = sh; } #ifdef __APPLE__ // On OS X we can do the maximize thing properly before the // window is showned. Other platforms handled further down... if (maximize) { int dummy; Fl::screen_work_area(dummy, dummy, w, h, geom_x, geom_y); } #endif if (force_position()) { resize(geom_x, geom_y, w, h); } else { size(w, h); } if (fullScreen) { // Hack: Window managers seem to be rather crappy at respecting // fullscreen hints on initial windows. So on X11 we'll have to // wait until after we've been mapped. #if defined(WIN32) || defined(__APPLE__) fullscreen_on(); #else delayedFullscreen = true; #endif } show(); // Full screen events are not sent out for a hidden window, // so send a fake one here to set up things properly. if (fullscreen_active()) handle(FL_FULLSCREEN); // Unfortunately, current FLTK does not allow us to set the // maximized property on Windows and X11 before showing the window. // See STR #2083 and STR #2178 #ifndef __APPLE__ if (maximize) { maximizeWindow(); } #endif // Adjust layout now that we're visible and know our final size repositionWidgets(); if (delayedFullscreen) { // Hack: Fullscreen requests may be ignored, so we need a timeout for // when we should stop waiting. We also really need to wait for the // resize, which can come after the fullscreen event. Fl::add_timeout(0.5, handleFullscreenTimeout, this); fullscreen_on(); } // Throughput graph for debugging if (vlog.getLevel() >= LogWriter::LEVEL_DEBUG) { memset(&stats, 0, sizeof(stats)); Fl::add_timeout(0, handleStatsTimeout, this); } // Show hint about menu key Fl::add_timeout(0.5, menuOverlay, this); // By default we get a slight delay when we warp the pointer, something // we don't want or we'll get jerky movement #ifdef __APPLE__ CGEventSourceRef event = CGEventSourceCreate(kCGEventSourceStateCombinedSessionState); CGEventSourceSetLocalEventsSuppressionInterval(event, 0); CFRelease(event); #endif } DesktopWindow::~DesktopWindow() { // Unregister all timeouts in case they get a change tro trigger // again later when this object is already gone. Fl::remove_timeout(handleGrab, this); Fl::remove_timeout(handleResizeTimeout, this); Fl::remove_timeout(handleFullscreenTimeout, this); Fl::remove_timeout(handleEdgeScroll, this); Fl::remove_timeout(handleStatsTimeout, this); Fl::remove_timeout(menuOverlay, this); Fl::remove_timeout(updateOverlay, this); OptionsDialog::removeCallback(handleOptions); delete overlay; delete offscreen; delete statsGraph; instances.erase(this); if (instances.size() == 0) Fl::remove_handler(fltkHandle); Fl::event_dispatch(Fl::handle_); // FLTK automatically deletes all child widgets, so we shouldn't touch // them ourselves here } const rfb::PixelFormat &DesktopWindow::getPreferredPF() { return viewport->getPreferredPF(); } void DesktopWindow::setName(const char *name) { char windowNameStr[256]; snprintf(windowNameStr, 256, "%.240s - TigerVNC", name); copy_label(windowNameStr); } // Copy the areas of the framebuffer that have been changed (damaged) // to the displayed window. void DesktopWindow::updateWindow() { if (firstUpdate) { if (cc->server.supportsSetDesktopSize) { // Hack: Wait until we're in the proper mode and position until // resizing things, otherwise we might send the wrong thing. if (delayedFullscreen) delayedDesktopSize = true; else handleDesktopSize(); } firstUpdate = false; } viewport->updateWindow(); } void DesktopWindow::resizeFramebuffer(int new_w, int new_h) { bool maximized; if ((new_w == viewport->w()) && (new_h == viewport->h())) return; maximized = false; #ifdef WIN32 WINDOWPLACEMENT wndpl; memset(&wndpl, 0, sizeof(WINDOWPLACEMENT)); wndpl.length = sizeof(WINDOWPLACEMENT); GetWindowPlacement(fl_xid(this), &wndpl); if (wndpl.showCmd == SW_SHOWMAXIMIZED) maximized = true; #elif defined(__APPLE__) if (cocoa_win_is_zoomed(this)) maximized = true; #else Atom net_wm_state = XInternAtom (fl_display, "_NET_WM_STATE", 0); Atom net_wm_state_maximized_vert = XInternAtom (fl_display, "_NET_WM_STATE_MAXIMIZED_VERT", 0); Atom net_wm_state_maximized_horz = XInternAtom (fl_display, "_NET_WM_STATE_MAXIMIZED_HORZ", 0); Atom type; int format; unsigned long nitems, remain; Atom *atoms; XGetWindowProperty(fl_display, fl_xid(this), net_wm_state, 0, 1024, False, XA_ATOM, &type, &format, &nitems, &remain, (unsigned char**)&atoms); for (unsigned long n = 0;n < nitems;n++) { if ((atoms[n] == net_wm_state_maximized_vert) || (atoms[n] == net_wm_state_maximized_horz)) { maximized = true; break; } } XFree(atoms); #endif // If we're letting the viewport match the window perfectly, then // keep things that way for the new size, otherwise just keep things // like they are. if (!fullscreen_active() && !maximized) { if ((w() == viewport->w()) && (h() == viewport->h())) size(new_w, new_h); } viewport->size(new_w, new_h); repositionWidgets(); } void DesktopWindow::setCursor(int width, int height, const rfb::Point& hotspot, const uint8_t* data) { viewport->setCursor(width, height, hotspot, data); } void DesktopWindow::setCursorPos(const rfb::Point& pos) { if (!mouseGrabbed) { // Do nothing if we do not have the mouse captured. return; } #if defined(WIN32) SetCursorPos(pos.x + x_root() + viewport->x(), pos.y + y_root() + viewport->y()); #elif defined(__APPLE__) CGPoint new_pos; new_pos.x = pos.x + x_root() + viewport->x(); new_pos.y = pos.y + y_root() + viewport->y(); CGWarpMouseCursorPosition(new_pos); #else // Assume this is Xlib Window rootwindow = DefaultRootWindow(fl_display); XWarpPointer(fl_display, rootwindow, rootwindow, 0, 0, 0, 0, pos.x + x_root() + viewport->x(), pos.y + y_root() + viewport->y()); #endif } void DesktopWindow::show() { Fl_Window::show(); #if !defined(WIN32) && !defined(__APPLE__) XEvent e; // Request ability to grab keyboard under Xwayland e.xany.type = ClientMessage; e.xany.window = fl_xid(this); e.xclient.message_type = XInternAtom (fl_display, "_XWAYLAND_MAY_GRAB_KEYBOARD", 0); e.xclient.format = 32; e.xclient.data.l[0] = 1; e.xclient.data.l[1] = 0; e.xclient.data.l[2] = 0; e.xclient.data.l[3] = 0; e.xclient.data.l[4] = 0; XSendEvent(fl_display, RootWindow(fl_display, fl_screen), 0, SubstructureNotifyMask | SubstructureRedirectMask, &e); #endif } void DesktopWindow::draw() { bool redraw; int X, Y, W, H; // X11 needs an off screen buffer for compositing to avoid flicker, // and alpha blending doesn't work for windows on Win32 #if !defined(__APPLE__) // Adjust offscreen surface dimensions if ((offscreen == nullptr) || (offscreen->width() != w()) || (offscreen->height() != h())) { delete offscreen; offscreen = new Surface(w(), h()); } #endif // Active area inside scrollbars W = w() - (vscroll->visible() ? vscroll->w() : 0); H = h() - (hscroll->visible() ? hscroll->h() : 0); // Full redraw? redraw = (damage() & ~FL_DAMAGE_CHILD); // Simplify the clip region to a simple rectangle in order to // properly draw all the layers even if they only partially overlap if (redraw) X = Y = 0; else fl_clip_box(0, 0, W, H, X, Y, W, H); fl_push_no_clip(); fl_push_clip(X, Y, W, H); // Redraw background only on full redraws if (redraw) { if (offscreen) offscreen->clear(40, 40, 40); else fl_rectf(0, 0, W, H, 40, 40, 40); } if (offscreen) { viewport->draw(offscreen); viewport->clear_damage(); } else { if (redraw) draw_child(*viewport); else update_child(*viewport); } // Debug graph (if active) if (statsGraph) { int ox, oy, ow, oh; ox = X = w() - statsGraph->width() - 30; oy = Y = h() - statsGraph->height() - 30; ow = statsGraph->width(); oh = statsGraph->height(); fl_clip_box(ox, oy, ow, oh, ox, oy, ow, oh); if ((ow != 0) && (oh != 0)) { if (offscreen) statsGraph->blend(offscreen, ox - X, oy - Y, ox, oy, ow, oh, 204); else statsGraph->blend(ox - X, oy - Y, ox, oy, ow, oh, 204); } } // Overlay (if active) if (overlay) { int ox, oy, ow, oh; int sx, sy, sw, sh; // Make sure it's properly seen by adjusting it relative to the // primary screen rather than the entire window if (fullscreen_active()) { assert(Fl::screen_count() >= 1); rfb::Rect windowRect, screenRect; windowRect.setXYWH(x(), y(), w(), h()); bool foundEnclosedScreen = false; for (int idx = 0; idx < Fl::screen_count(); idx++) { Fl::screen_xywh(sx, sy, sw, sh, idx); // The screen with the smallest index that are enclosed by // the viewport will be used for showing the overlay. screenRect.setXYWH(sx, sy, sw, sh); if (screenRect.enclosed_by(windowRect)) { foundEnclosedScreen = true; break; } } // If no monitor inside the viewport was found, // use the one primary instead. if (!foundEnclosedScreen) Fl::screen_xywh(sx, sy, sw, sh, 0); // Adjust the coordinates so they are relative to the viewport. sx -= x(); sy -= y(); } else { sx = 0; sy = 0; sw = w(); } ox = X = sx + (sw - overlay->width()) / 2; oy = Y = sy + 50; ow = overlay->width(); oh = overlay->height(); fl_clip_box(ox, oy, ow, oh, ox, oy, ow, oh); if ((ow != 0) && (oh != 0)) { if (offscreen) overlay->blend(offscreen, ox - X, oy - Y, ox, oy, ow, oh, overlayAlpha); else overlay->blend(ox - X, oy - Y, ox, oy, ow, oh, overlayAlpha); } } // Flush offscreen surface to screen if (offscreen) { fl_clip_box(0, 0, w(), h(), X, Y, W, H); offscreen->draw(X, Y, X, Y, W, H); } fl_pop_clip(); fl_pop_clip(); // Finally the scrollbars if (redraw) { draw_child(*hscroll); draw_child(*vscroll); } else { update_child(*hscroll); update_child(*vscroll); } } void DesktopWindow::setLEDState(unsigned int state) { viewport->setLEDState(state); } void DesktopWindow::handleClipboardRequest() { viewport->handleClipboardRequest(); } void DesktopWindow::handleClipboardAnnounce(bool available) { viewport->handleClipboardAnnounce(available); } void DesktopWindow::handleClipboardData(const char* data) { viewport->handleClipboardData(data); } void DesktopWindow::resize(int x, int y, int w, int h) { bool resizing; #if ! (defined(WIN32) || defined(__APPLE__)) // X11 window managers will treat a resize to cover the entire // monitor as a request to go full screen. Make sure we avoid this. if (!fullscreen_active()) { bool resize_req; // If there is no X11 window, then this must be a resize request, // not a notification from the X server. if (!shown()) resize_req = true; else { // Otherwise we need to get the real window coordinates to tell // the difference XWindowAttributes actual; Window cr; int wx, wy; XGetWindowAttributes(fl_display, fl_xid(this), &actual); XTranslateCoordinates(fl_display, fl_xid(this), actual.root, 0, 0, &wx, &wy, &cr); // Actual resize request? if ((wx != x) || (wy != y) || (actual.width != w) || (actual.height != h)) resize_req = true; else resize_req = false; } if (resize_req) { for (int idx = 0;idx < Fl::screen_count();idx++) { int sx, sy, sw, sh; Fl::screen_xywh(sx, sy, sw, sh, idx); // We can't trust x and y if the window isn't mapped as the // window manager might adjust those numbers if (shown() && ((sx != x) || (sy != y))) continue; if ((sw != w) || (sh != h)) continue; vlog.info(_("Adjusting window size to avoid accidental full-screen request")); // Assume a panel of some form and adjust the height h -= 40; } } } #endif if ((this->w() != w) || (this->h() != h)) resizing = true; else resizing = false; Fl_Window::resize(x, y, w, h); if (resizing) { // Try to get the remote size to match our window size, provided // the following conditions are true: // // a) The user has this feature turned on // b) The server supports it // c) We're not still waiting for a chance to handle DesktopSize // d) We're not still waiting for startup fullscreen to kick in // if (not firstUpdate and not delayedFullscreen and ::remoteResize and cc->server.supportsSetDesktopSize) { // We delay updating the remote desktop as we tend to get a flood // of resize events as the user is dragging the window. Fl::remove_timeout(handleResizeTimeout, this); Fl::add_timeout(0.5, handleResizeTimeout, this); } repositionWidgets(); } // Some systems require a grab after the window size has been changed. // Otherwise they might hold on to displays, resulting in them being unusable. maybeGrabKeyboard(); } void DesktopWindow::menuOverlay(void* data) { DesktopWindow *self; self = (DesktopWindow*)data; if (strcmp((const char*)menuKey, "") != 0) { self->setOverlay(_("Press %s to open the context menu"), (const char*)menuKey); } } void DesktopWindow::setOverlay(const char* text, ...) { const Fl_Fontsize fontsize = 16; const int margin = 10; va_list ap; char textbuf[1024]; Fl_Image_Surface *surface; Fl_RGB_Image* imageText; Fl_RGB_Image* image; unsigned char* buffer; int x, y; int w, h; unsigned char* a; const unsigned char* b; delete overlay; Fl::remove_timeout(updateOverlay, this); va_start(ap, text); vsnprintf(textbuf, sizeof(textbuf), text, ap); textbuf[sizeof(textbuf)-1] = '\0'; va_end(ap); #if !defined(WIN32) && !defined(__APPLE__) // FLTK < 1.3.5 crashes if fl_gc is unset if (!fl_gc) fl_gc = XDefaultGC(fl_display, 0); #endif fl_font(FL_HELVETICA, fontsize); w = 0; fl_measure(textbuf, w, h); // Margins w += margin * 2 * 2; h += margin * 2; surface = new Fl_Image_Surface(w, h); surface->set_current(); fl_rectf(0, 0, w, h, 0, 0, 0); fl_font(FL_HELVETICA, fontsize); fl_color(FL_WHITE); fl_draw(textbuf, 0, 0, w, h, FL_ALIGN_CENTER); imageText = surface->image(); delete surface; Fl_Display_Device::display_device()->set_current(); buffer = new unsigned char[w * h * 4]; image = new Fl_RGB_Image(buffer, w, h, 4); a = buffer; for (x = 0;x < image->w() * image->h();x++) { a[0] = a[1] = a[2] = 0x40; a[3] = 0xcc; a += 4; } a = buffer; b = (const unsigned char*)imageText->data()[0]; for (y = 0;y < h;y++) { for (x = 0;x < w;x++) { unsigned char alpha; alpha = *b; a[0] = (unsigned)a[0] * (255 - alpha) / 255 + alpha; a[1] = (unsigned)a[1] * (255 - alpha) / 255 + alpha; a[2] = (unsigned)a[2] * (255 - alpha) / 255 + alpha; a[3] = 255 - (255 - a[3]) * (255 - alpha) / 255; a += 4; b += imageText->d(); } if (imageText->ld() != 0) b += imageText->ld() - w * imageText->d(); } delete imageText; overlay = new Surface(image); overlayAlpha = 0; gettimeofday(&overlayStart, nullptr); delete image; delete [] buffer; Fl::add_timeout(1.0/60, updateOverlay, this); } void DesktopWindow::updateOverlay(void *data) { DesktopWindow *self; unsigned elapsed; self = (DesktopWindow*)data; elapsed = msSince(&self->overlayStart); if (elapsed < 500) { self->overlayAlpha = (unsigned)255 * elapsed / 500; Fl::add_timeout(1.0/60, updateOverlay, self); } else if (elapsed < 3500) { self->overlayAlpha = 255; Fl::add_timeout(3.0, updateOverlay, self); } else if (elapsed < 4000) { self->overlayAlpha = (unsigned)255 * (4000 - elapsed) / 500; Fl::add_timeout(1.0/60, updateOverlay, self); } else { delete self->overlay; self->overlay = nullptr; } self->damage(FL_DAMAGE_USER1); } int DesktopWindow::handle(int event) { switch (event) { case FL_FULLSCREEN: fullScreen.setParam(fullscreen_active()); // Update scroll bars repositionWidgets(); if (fullscreen_active()) maybeGrabKeyboard(); else ungrabKeyboard(); break; case FL_ENTER: if (keyboardGrabbed) grabPointer(); /* fall through */ case FL_LEAVE: case FL_DRAG: case FL_MOVE: if (mouseGrabbed) { // We don't get FL_LEAVE with a grabbed pointer, so check manually if ((Fl::event_x() < 0) || (Fl::event_x() >= w()) || (Fl::event_y() < 0) || (Fl::event_y() >= h())) { ungrabPointer(); } #if !defined(WIN32) && !defined(__APPLE__) Window root, child; int x, y, wx, wy; unsigned int mask; // We also don't get sensible coordinates on zaphod setups if (XQueryPointer(fl_display, fl_xid(this), &root, &child, &x, &y, &wx, &wy, &mask) && (root != XRootWindow(fl_display, fl_screen))) { ungrabPointer(); } #endif } if (fullscreen_active()) { // calculate width of "edge" regions edge_scroll_size_x = viewport->w() / EDGE_SCROLL_SIZE; edge_scroll_size_y = viewport->h() / EDGE_SCROLL_SIZE; // if cursor is near the edge of the viewport, scroll if (((viewport->x() < 0) && (Fl::event_x() < edge_scroll_size_x)) || ((viewport->x() + viewport->w() >= w()) && (Fl::event_x() >= w() - edge_scroll_size_x)) || ((viewport->y() < 0) && (Fl::event_y() < edge_scroll_size_y)) || ((viewport->y() + viewport->h() >= h()) && (Fl::event_y() >= h() - edge_scroll_size_y))) { if (!Fl::has_timeout(handleEdgeScroll, this)) Fl::add_timeout(EDGE_SCROLL_SECONDS_PER_FRAME, handleEdgeScroll, this); } } // Continue processing so that the viewport also gets mouse events break; } return Fl_Window::handle(event); } int DesktopWindow::fltkDispatch(int event, Fl_Window *win) { int ret; // FLTK keeps spamming bogus FL_MOVE events if _any_ X event is // received with the mouse pointer outside our windows // https://github.com/fltk/fltk/issues/76 if ((event == FL_MOVE) && (win == nullptr)) return 0; ret = Fl::handle_(event, win); // This is hackish and the result of the dodgy focus handling in FLTK. // The basic problem is that FLTK's view of focus and the system's tend // to differ, and as a result we do not see all the FL_FOCUS events we // need. Fortunately we can grab them here... DesktopWindow *dw = dynamic_cast(win); if (dw) { switch (event) { // Focus might not stay with us just because we have grabbed the // keyboard. E.g. we might have sub windows, or we're not using // all monitors and the user clicked on another application. // Make sure we update our grabs with the focus changes. case FL_FOCUS: dw->maybeGrabKeyboard(); break; case FL_UNFOCUS: if (fullscreenSystemKeys) { dw->ungrabKeyboard(); } break; case FL_RELEASE: // We usually fail to grab the mouse if a mouse button was // pressed when we gained focus (e.g. clicking on our window), // so we may need to try again when the button is released. // (We do it here rather than handle() because a window does not // see FL_RELEASE events if a child widget grabs it first) if (dw->keyboardGrabbed && !dw->mouseGrabbed) dw->grabPointer(); break; } } return ret; } int DesktopWindow::fltkHandle(int event) { switch (event) { case FL_SCREEN_CONFIGURATION_CHANGED: // Screens removed or added. Recreate fullscreen window if // necessary. On Windows, adding a second screen only works // reliable if we are using a timer. Otherwise, the window will // not be resized to cover the new screen. A timer makes sense // also on other systems, to make sure that whatever desktop // environment has a chance to deal with things before we do. // Please note that when using FullscreenSystemKeys on macOS, the // display configuration cannot be changed: macOS will not detect // added or removed screens and there will be no // FL_SCREEN_CONFIGURATION_CHANGED event. This is by design: // "When you capture a display, you have exclusive use of the // display. Other applications and system services are not allowed // to use the display or change its configuration. In addition, // they are not notified of display changes" Fl::remove_timeout(reconfigureFullscreen); Fl::add_timeout(0.5, reconfigureFullscreen); } return 0; } void DesktopWindow::fullscreen_on() { bool allMonitors = !strcasecmp(fullScreenMode, "all"); bool selectedMonitors = !strcasecmp(fullScreenMode, "selected"); int top, bottom, left, right; if (not selectedMonitors and not allMonitors) { top = bottom = left = right = Fl::screen_num(x(), y(), w(), h()); } else { int top_y, bottom_y, left_x, right_x; int sx, sy, sw, sh; std::set monitors; if (selectedMonitors and not allMonitors) { std::set selected = fullScreenSelectedMonitors.getParam(); monitors.insert(selected.begin(), selected.end()); } else { for (int idx = 0; idx < Fl::screen_count(); idx++) monitors.insert(idx); } // If no monitors were found in the selected monitors case, we want // to explicitly use the window's current monitor. if (monitors.size() == 0) { monitors.insert(Fl::screen_num(x(), y(), w(), h())); } // If there are monitors selected, calculate the dimensions // of the frame buffer, expressed in the monitor indices that // limits it. std::set::iterator it = monitors.begin(); // Get first monitor dimensions. Fl::screen_xywh(sx, sy, sw, sh, *it); top = bottom = left = right = *it; top_y = sy; bottom_y = sy + sh; left_x = sx; right_x = sx + sw; // Keep going through the rest of the monitors. for (; it != monitors.end(); it++) { Fl::screen_xywh(sx, sy, sw, sh, *it); if (sy < top_y) { top = *it; top_y = sy; } if ((sy + sh) > bottom_y) { bottom = *it; bottom_y = sy + sh; } if (sx < left_x) { left = *it; left_x = sx; } if ((sx + sw) > right_x) { right = *it; right_x = sx + sw; } } } #ifdef __APPLE__ // This is a workaround for a bug in FLTK, see: https://github.com/fltk/fltk/pull/277 int savedLevel; savedLevel = cocoa_get_level(this); #endif fullscreen_screens(top, bottom, left, right); #ifdef __APPLE__ // This is a workaround for a bug in FLTK, see: https://github.com/fltk/fltk/pull/277 if (cocoa_get_level(this) != savedLevel) cocoa_set_level(this, savedLevel); #endif if (!fullscreen_active()) fullscreen(); } #if !defined(WIN32) && !defined(__APPLE__) Bool eventIsFocusWithSerial(Display* /*display*/, XEvent *event, XPointer arg) { unsigned long serial; serial = *(unsigned long*)arg; if (event->xany.serial != serial) return False; if ((event->type != FocusIn) && (event->type != FocusOut)) return False; return True; } #endif bool DesktopWindow::hasFocus() { Fl_Widget* focus; focus = Fl::grab(); if (!focus) focus = Fl::focus(); if (!focus) return false; return focus->window() == this; } void DesktopWindow::maybeGrabKeyboard() { if (fullscreenSystemKeys && fullscreen_active() && hasFocus()) grabKeyboard(); } void DesktopWindow::grabKeyboard() { // Grabbing the keyboard is fairly safe as FLTK reroutes events to the // correct widget regardless of which low level window got the system // event. // FIXME: Push this stuff into FLTK. #if defined(WIN32) int ret; ret = win32_enable_lowlevel_keyboard(fl_xid(this)); if (ret != 0) { vlog.error(_("Failure grabbing keyboard")); return; } #elif defined(__APPLE__) int ret; ret = cocoa_capture_displays(this); if (ret != 0) { vlog.error(_("Failure grabbing keyboard")); return; } #else int ret; XEvent xev; unsigned long serial; serial = XNextRequest(fl_display); ret = XGrabKeyboard(fl_display, fl_xid(this), True, GrabModeAsync, GrabModeAsync, CurrentTime); if (ret) { if (ret == AlreadyGrabbed) { // It seems like we can race with the WM in some cases. // Try again in a bit. if (!Fl::has_timeout(handleGrab, this)) Fl::add_timeout(0.500, handleGrab, this); } else { vlog.error(_("Failure grabbing keyboard")); } return; } // Xorg 1.20+ generates FocusIn/FocusOut even when there is no actual // change of focus. This causes us to get stuck in an endless loop // grabbing and ungrabbing the keyboard. Avoid this by filtering out // any focus events generated by XGrabKeyboard(). XSync(fl_display, False); while (XCheckIfEvent(fl_display, &xev, &eventIsFocusWithSerial, (XPointer)&serial) == True) { vlog.debug("Ignored synthetic focus event cause by grab change"); } #endif keyboardGrabbed = true; if (contains(Fl::belowmouse())) grabPointer(); } void DesktopWindow::ungrabKeyboard() { Fl::remove_timeout(handleGrab, this); keyboardGrabbed = false; ungrabPointer(); #if defined(WIN32) win32_disable_lowlevel_keyboard(fl_xid(this)); #elif defined(__APPLE__) cocoa_release_displays(this); #else // FLTK has a grab so lets not mess with it if (Fl::grab()) return; XEvent xev; unsigned long serial; serial = XNextRequest(fl_display); XUngrabKeyboard(fl_display, CurrentTime); // See grabKeyboard() XSync(fl_display, False); while (XCheckIfEvent(fl_display, &xev, &eventIsFocusWithSerial, (XPointer)&serial) == True) { vlog.debug("Ignored synthetic focus event cause by grab change"); } #endif } void DesktopWindow::grabPointer() { #if !defined(WIN32) && !defined(__APPLE__) // We also need to grab the pointer as some WMs like to grab buttons // combined with modifies (e.g. Alt+Button0 in metacity). // Having a button pressed prevents us from grabbing, we make // a new attempt in fltkHandle() if (!x11_grab_pointer(fl_xid(this))) return; #endif mouseGrabbed = true; } void DesktopWindow::ungrabPointer() { mouseGrabbed = false; #if !defined(WIN32) && !defined(__APPLE__) x11_ungrab_pointer(fl_xid(this)); #endif } void DesktopWindow::handleGrab(void *data) { DesktopWindow *self = (DesktopWindow*)data; assert(self); self->maybeGrabKeyboard(); } #define _NET_WM_STATE_ADD 1 /* add/set property */ void DesktopWindow::maximizeWindow() { #if defined(WIN32) // We cannot use ShowWindow() in full screen mode as it will // resize things implicitly. Fortunately modifying the style // directly results in a maximized state once we leave full screen. if (fullscreen_active()) { WINDOWINFO wi; wi.cbSize = sizeof(WINDOWINFO); GetWindowInfo(fl_xid(this), &wi); SetWindowLongPtr(fl_xid(this), GWL_STYLE, wi.dwStyle | WS_MAXIMIZE); } else ShowWindow(fl_xid(this), SW_MAXIMIZE); #elif defined(__APPLE__) if (fullscreen_active()) return; cocoa_win_zoom(this); #else // X11 fl_open_display(); Atom net_wm_state = XInternAtom (fl_display, "_NET_WM_STATE", 0); Atom net_wm_state_maximized_vert = XInternAtom (fl_display, "_NET_WM_STATE_MAXIMIZED_VERT", 0); Atom net_wm_state_maximized_horz = XInternAtom (fl_display, "_NET_WM_STATE_MAXIMIZED_HORZ", 0); XEvent e; e.xany.type = ClientMessage; e.xany.window = fl_xid(this); e.xclient.message_type = net_wm_state; e.xclient.format = 32; e.xclient.data.l[0] = _NET_WM_STATE_ADD; e.xclient.data.l[1] = net_wm_state_maximized_vert; e.xclient.data.l[2] = net_wm_state_maximized_horz; e.xclient.data.l[3] = 0; e.xclient.data.l[4] = 0; XSendEvent(fl_display, RootWindow(fl_display, fl_screen), 0, SubstructureNotifyMask | SubstructureRedirectMask, &e); #endif } void DesktopWindow::handleDesktopSize() { if (strcmp(desktopSize, "") != 0) { int width, height; // An explicit size has been requested if (sscanf(desktopSize, "%dx%d", &width, &height) != 2) return; remoteResize(width, height); } else if (::remoteResize) { // No explicit size, but remote resizing is on so make sure it // matches whatever size the window ended up being remoteResize(w(), h()); } } void DesktopWindow::handleResizeTimeout(void *data) { DesktopWindow *self = (DesktopWindow *)data; assert(self); self->remoteResize(self->w(), self->h()); } void DesktopWindow::reconfigureFullscreen(void* /*data*/) { std::set::iterator iter; for (iter = instances.begin(); iter != instances.end(); ++iter) { if ((*iter)->fullscreen_active()) (*iter)->fullscreen_on(); } } void DesktopWindow::remoteResize(int width, int height) { ScreenSet layout; ScreenSet::const_iterator iter; if (!fullscreen_active() || (width > w()) || (height > h())) { // In windowed mode (or the framebuffer is so large that we need // to scroll) we just report a single virtual screen that covers // the entire framebuffer. layout = cc->server.screenLayout(); // Not sure why we have no screens, but adding a new one should be // safe as there is nothing to conflict with... if (layout.num_screens() == 0) layout.add_screen(rfb::Screen()); else if (layout.num_screens() != 1) { // More than one screen. Remove all but the first (which we // assume is the "primary"). while (true) { iter = layout.begin(); ++iter; if (iter == layout.end()) break; layout.remove_screen(iter->id); } } // Resize the remaining single screen to the complete framebuffer layout.begin()->dimensions.tl.x = 0; layout.begin()->dimensions.tl.y = 0; layout.begin()->dimensions.br.x = width; layout.begin()->dimensions.br.y = height; } else { uint32_t id; int sx, sy, sw, sh; rfb::Rect viewport_rect, screen_rect; // In full screen we report all screens that are fully covered. viewport_rect.setXYWH(x() + (w() - width)/2, y() + (h() - height)/2, width, height); // If we can find a matching screen in the existing set, we use // that, otherwise we create a brand new screen. // // FIXME: We should really track screens better so we can handle // a resized one. // for (int idx = 0;idx < Fl::screen_count();idx++) { Fl::screen_xywh(sx, sy, sw, sh, idx); // Check that the screen is fully inside the framebuffer screen_rect.setXYWH(sx, sy, sw, sh); if (!screen_rect.enclosed_by(viewport_rect)) continue; // Adjust the coordinates so they are relative to our viewport sx -= viewport_rect.tl.x; sy -= viewport_rect.tl.y; // Look for perfectly matching existing screen that is not yet present in // in the screen layout... for (iter = cc->server.screenLayout().begin(); iter != cc->server.screenLayout().end(); ++iter) { if ((iter->dimensions.tl.x == sx) && (iter->dimensions.tl.y == sy) && (iter->dimensions.width() == sw) && (iter->dimensions.height() == sh) && (std::find(layout.begin(), layout.end(), *iter) == layout.end())) break; } // Found it? if (iter != cc->server.screenLayout().end()) { layout.add_screen(*iter); continue; } // Need to add a new one, which means we need to find an unused id while (true) { id = rand(); for (iter = cc->server.screenLayout().begin(); iter != cc->server.screenLayout().end(); ++iter) { if (iter->id == id) break; } if (iter == cc->server.screenLayout().end()) break; } layout.add_screen(rfb::Screen(id, sx, sy, sw, sh, 0)); } // If the viewport doesn't match a physical screen, then we might // end up with no screens in the layout. Add a fake one... if (layout.num_screens() == 0) layout.add_screen(rfb::Screen(0, 0, 0, width, height, 0)); } // Do we actually change anything? if ((width == cc->server.width()) && (height == cc->server.height()) && (layout == cc->server.screenLayout())) return; vlog.debug("Requesting framebuffer resize from %dx%d to %dx%d", cc->server.width(), cc->server.height(), width, height); char buffer[2048]; layout.print(buffer, sizeof(buffer)); if (!layout.validate(width, height)) { vlog.error(_("Invalid screen layout computed for resize request!")); vlog.error("%s", buffer); return; } else { vlog.debug("%s", buffer); } cc->writer()->writeSetDesktopSize(width, height, layout); } void DesktopWindow::repositionWidgets() { int new_x, new_y; // Viewport position new_x = viewport->x(); new_y = viewport->y(); if (w() > viewport->w()) new_x = (w() - viewport->w()) / 2; else { if (viewport->x() > 0) new_x = 0; else if (w() > (viewport->x() + viewport->w())) new_x = w() - viewport->w(); } // Same thing for y axis if (h() > viewport->h()) new_y = (h() - viewport->h()) / 2; else { if (viewport->y() > 0) new_y = 0; else if (h() > (viewport->y() + viewport->h())) new_y = h() - viewport->h(); } if ((new_x != viewport->x()) || (new_y != viewport->y())) { viewport->position(new_x, new_y); damage(FL_DAMAGE_SCROLL); } // Scrollbars visbility if (fullscreen_active()) { hscroll->hide(); vscroll->hide(); } else { // Decide whether to show a scrollbar by checking if the window // size (possibly minus scrollbar_size) is less than the viewport // (remote framebuffer) size. // // We decide whether to subtract scrollbar_size on an axis by // checking if the other axis *definitely* needs a scrollbar. You // might be tempted to think that this becomes a weird recursive // problem, but it isn't: If the window size is less than the // viewport size (without subtracting the scrollbar_size), then // that axis *definitely* needs a scrollbar; if the check changes // when we subtract scrollbar_size, then that axis only *maybe* // needs a scrollbar. If both axes only "maybe" need a scrollbar, // then neither does; so we don't need to recurse on the "maybe" // cases. if (w() - (h() < viewport->h() ? Fl::scrollbar_size() : 0) < viewport->w()) hscroll->show(); else hscroll->hide(); if (h() - (w() < viewport->w() ? Fl::scrollbar_size() : 0) < viewport->h()) vscroll->show(); else vscroll->hide(); } // Scrollbars positions hscroll->resize(0, h() - Fl::scrollbar_size(), w() - (vscroll->visible() ? Fl::scrollbar_size() : 0), Fl::scrollbar_size()); vscroll->resize(w() - Fl::scrollbar_size(), 0, Fl::scrollbar_size(), h() - (hscroll->visible() ? Fl::scrollbar_size() : 0)); // Scrollbars range hscroll->value(-viewport->x(), w() - (vscroll->visible() ? vscroll->w() : 0), 0, viewport->w()); vscroll->value(-viewport->y(), h() - (hscroll->visible() ? hscroll->h() : 0), 0, viewport->h()); hscroll->value(hscroll->clamp(hscroll->value())); vscroll->value(vscroll->clamp(vscroll->value())); } void DesktopWindow::handleClose(Fl_Widget* /*wnd*/, void* /*data*/) { disconnect(); } void DesktopWindow::handleOptions(void *data) { DesktopWindow *self = (DesktopWindow*)data; if (fullscreenSystemKeys) self->maybeGrabKeyboard(); else self->ungrabKeyboard(); // Call fullscreen_on even if active since it handles // fullScreenMode if (fullScreen) self->fullscreen_on(); else if (!fullScreen && self->fullscreen_active()) self->fullscreen_off(); } void DesktopWindow::handleFullscreenTimeout(void *data) { DesktopWindow *self = (DesktopWindow *)data; assert(self); self->delayedFullscreen = false; if (self->delayedDesktopSize) { self->handleDesktopSize(); self->delayedDesktopSize = false; } } void DesktopWindow::scrollTo(int x, int y) { x = hscroll->clamp(x); y = vscroll->clamp(y); hscroll->value(x); vscroll->value(y); // Scrollbar position results in inverse movement of // the viewport widget x = -x; y = -y; if ((viewport->x() == x) && (viewport->y() == y)) return; viewport->position(x, y); damage(FL_DAMAGE_SCROLL); } void DesktopWindow::handleScroll(Fl_Widget* /*widget*/, void *data) { DesktopWindow *self = (DesktopWindow *)data; self->scrollTo(self->hscroll->value(), self->vscroll->value()); } void DesktopWindow::handleEdgeScroll(void *data) { DesktopWindow *self = (DesktopWindow *)data; int mx, my; int dx, dy; assert(self); if (!self->fullscreen_active()) return; mx = Fl::event_x(); my = Fl::event_y(); dx = dy = 0; // Clamp mouse position in case it is outside the window if (mx < 0) mx = 0; if (mx > self->w()) mx = self->w(); if (my < 0) my = 0; if (my > self->h()) my = self->h(); if ((self->viewport->x() < 0) && (mx < edge_scroll_size_x)) dx = EDGE_SCROLL_SPEED - EDGE_SCROLL_SPEED * mx / edge_scroll_size_x; if ((self->viewport->x() + self->viewport->w() >= self->w()) && (mx >= self->w() - edge_scroll_size_x)) dx = EDGE_SCROLL_SPEED * (self->w() - mx) / edge_scroll_size_x - EDGE_SCROLL_SPEED - 1; if ((self->viewport->y() < 0) && (my < edge_scroll_size_y)) dy = EDGE_SCROLL_SPEED - EDGE_SCROLL_SPEED * my / edge_scroll_size_y; if ((self->viewport->y() + self->viewport->h() >= self->h()) && (my >= self->h() - edge_scroll_size_y)) dy = EDGE_SCROLL_SPEED * (self->h() - my) / edge_scroll_size_y - EDGE_SCROLL_SPEED - 1; if ((dx == 0) && (dy == 0)) return; self->scrollTo(self->hscroll->value() - dx, self->vscroll->value() - dy); Fl::repeat_timeout(EDGE_SCROLL_SECONDS_PER_FRAME, handleEdgeScroll, data); } void DesktopWindow::handleStatsTimeout(void *data) { DesktopWindow *self = (DesktopWindow*)data; const size_t statsCount = sizeof(self->stats)/sizeof(self->stats[0]); unsigned updates, pixels, pos; unsigned elapsed; const unsigned statsWidth = 200; const unsigned statsHeight = 100; const unsigned graphWidth = statsWidth - 10; const unsigned graphHeight = statsHeight - 25; Fl_Image_Surface *surface; Fl_RGB_Image *image; unsigned maxUPS, maxPPS, maxBPS; size_t i; char buffer[256]; updates = self->cc->getUpdateCount(); pixels = self->cc->getPixelCount(); pos = self->cc->getPosition(); elapsed = msSince(&self->statsLastTime); if (elapsed < 1) elapsed = 1; memmove(&self->stats[0], &self->stats[1], sizeof(self->stats[0])*(statsCount-1)); self->stats[statsCount-1].ups = (updates - self->statsLastUpdates) * 1000 / elapsed; self->stats[statsCount-1].pps = (pixels - self->statsLastPixels) * 1000 / elapsed; self->stats[statsCount-1].bps = (pos - self->statsLastPosition) * 1000 / elapsed; gettimeofday(&self->statsLastTime, nullptr); self->statsLastUpdates = updates; self->statsLastPixels = pixels; self->statsLastPosition = pos; #if !defined(WIN32) && !defined(__APPLE__) // FLTK < 1.3.5 crashes if fl_gc is unset if (!fl_gc) fl_gc = XDefaultGC(fl_display, 0); #endif surface = new Fl_Image_Surface(statsWidth, statsHeight); surface->set_current(); fl_rectf(0, 0, statsWidth, statsHeight, FL_BLACK); fl_rect(5, 5, graphWidth, graphHeight, FL_WHITE); maxUPS = maxPPS = maxBPS = 0; for (i = 0;i < statsCount;i++) { if (self->stats[i].ups > maxUPS) maxUPS = self->stats[i].ups; if (self->stats[i].pps > maxPPS) maxPPS = self->stats[i].pps; if (self->stats[i].bps > maxBPS) maxBPS = self->stats[i].bps; } if (maxUPS != 0) { fl_color(FL_GREEN); for (i = 0;i < statsCount-1;i++) { fl_line(5 + i * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i].ups / maxUPS, 5 + (i+1) * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i+1].ups / maxUPS); } } if (maxPPS != 0) { fl_color(FL_YELLOW); for (i = 0;i < statsCount-1;i++) { fl_line(5 + i * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i].pps / maxPPS, 5 + (i+1) * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i+1].pps / maxPPS); } } if (maxBPS != 0) { fl_color(FL_RED); for (i = 0;i < statsCount-1;i++) { fl_line(5 + i * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i].bps / maxBPS, 5 + (i+1) * graphWidth / statsCount, 5 + graphHeight - graphHeight * self->stats[i+1].bps / maxBPS); } } fl_font(FL_HELVETICA, 10); fl_color(FL_GREEN); snprintf(buffer, sizeof(buffer), "%u upd/s", self->stats[statsCount-1].ups); fl_draw(buffer, 5, statsHeight - 5); fl_color(FL_YELLOW); fl_draw(siPrefix(self->stats[statsCount-1].pps, "pix/s").c_str(), 5 + (statsWidth-10)/3, statsHeight - 5); fl_color(FL_RED); fl_draw(siPrefix(self->stats[statsCount-1].bps * 8, "bps").c_str(), 5 + (statsWidth-10)*2/3, statsHeight - 5); image = surface->image(); delete surface; Fl_Display_Device::display_device()->set_current(); delete self->statsGraph; self->statsGraph = new Surface(image); delete image; self->damage(FL_DAMAGE_CHILD, self->w() - statsWidth - 30, self->h() - statsHeight - 30, statsWidth, statsHeight); Fl::repeat_timeout(0.5, handleStatsTimeout, data); }