/* * * Conky, a system monitor, based on torsmo * * Any original torsmo code is licensed under the BSD license * * All code written since the fork of torsmo is licensed under the GPL * * Please see COPYING for details * * Copyright (c) 2004, Hannu Saransaari and Lauri Hakkarainen * Copyright (c) 2005-2021 Brenden Matthews, Philip Kovacs, et. al. * (see AUTHORS) * All rights reserved. * * This program 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 3 of the License, or * (at your option) any later version. * * This program 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 program. If not, see . * */ #include #include "common.h" #include "config.h" #include "conky.h" #include "logging.h" #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wvariadic-macros" #pragma GCC diagnostic ignored "-Wregister" #include #pragma GCC diagnostic pop #include #include #include #include #include "gui.h" #ifdef BUILD_IMLIB2 #include "imlib2.h" #endif /* BUILD_IMLIB2 */ #ifndef OWN_WINDOW #include #endif #ifdef BUILD_XFT #include #endif #ifdef BUILD_XINERAMA #include #endif #ifdef BUILD_XSHAPE #include #endif /* BUILD_XSHAPE */ /* some basic X11 stuff */ Display *display = nullptr; /* Window stuff */ struct conky_x11_window window; conky::simple_config_setting display_name("display", std::string(), false); /* local prototypes */ static void update_workarea(); static Window find_desktop_window(Window *p_root, Window *p_desktop); static Window find_subwindow(Window win, int w, int h); static void init_x11(); static void deinit_x11(); /********************* ************************/ namespace priv { void out_to_x_setting::lua_setter(lua::state &l, bool init) { lua::stack_sentry s(l, -2); Base::lua_setter(l, init); if (init && do_convert(l, -1).first) { init_x11(); } ++s; } void out_to_x_setting::cleanup(lua::state &l) { lua::stack_sentry s(l, -1); if (do_convert(l, -1).first) { deinit_x11(); } l.pop(); } #ifdef BUILD_XDBE bool use_xdbe_setting::set_up(lua::state &l) { // double_buffer makes no sense when not drawing to X if (!out_to_x.get(l) || !display || !window.window) { return false; } int major, minor; if (XdbeQueryExtension(display, &major, &minor) == 0) { NORM_ERR("No compatible double buffer extension found"); return false; } window.back_buffer = XdbeAllocateBackBufferName(display, window.window, XdbeBackground); if (window.back_buffer != None) { window.drawable = window.back_buffer; } else { NORM_ERR("Failed to allocate back buffer"); return false; } XFlush(display); return true; } void use_xdbe_setting::lua_setter(lua::state &l, bool init) { lua::stack_sentry s(l, -2); Base::lua_setter(l, init); if (init && do_convert(l, -1).first) { if (!set_up(l)) { l.pop(); l.pushboolean(false); } fprintf(stderr, PACKAGE_NAME ": drawing to %s buffer\n", do_convert(l, -1).first ? "double" : "single"); } ++s; } #else bool use_xpmdb_setting::set_up(lua::state &l) { // double_buffer makes no sense when not drawing to X if (!out_to_x.get(l)) return false; window.back_buffer = XCreatePixmap(display, window.window, window.width + 1, window.height + 1, DefaultDepth(display, screen)); if (window.back_buffer != None) { window.drawable = window.back_buffer; } else { NORM_ERR("Failed to allocate back buffer"); return false; } XFlush(display); return true; } void use_xpmdb_setting::lua_setter(lua::state &l, bool init) { lua::stack_sentry s(l, -2); Base::lua_setter(l, init); if (init && do_convert(l, -1).first) { if (!set_up(l)) { l.pop(); l.pushboolean(false); } fprintf(stderr, PACKAGE_NAME ": drawing to %s buffer\n", do_convert(l, -1).first ? "double" : "single"); } ++s; } #endif } // namespace priv conky::simple_config_setting head_index("xinerama_head", 0, true); priv::out_to_x_setting out_to_x; #ifdef BUILD_XFT conky::simple_config_setting use_xft("use_xft", false, false); #endif conky::simple_config_setting forced_redraw("forced_redraw", false, false); #ifdef OWN_WINDOW #ifdef BUILD_ARGB conky::simple_config_setting use_argb_visual("own_window_argb_visual", false, false); #endif /* BUILD_ARGB */ #endif /* OWN_WINDOW */ #ifdef BUILD_XDBE priv::use_xdbe_setting use_xdbe; #else priv::use_xpmdb_setting use_xpmdb; #endif #ifdef BUILD_IMLIB2 /* * the only reason this is not in imlib2.cc is so that we can be sure it's * setter executes after use_xdbe */ imlib_cache_size_setting imlib_cache_size; #endif /******************** ************************/ /* WARNING, this type not in Xlib spec */ static int __attribute__((noreturn)) x11_error_handler(Display *d, XErrorEvent *err) { NORM_ERR( "X Error: type %i Display %lx XID %li serial %lu error_code %i " "request_code %i minor_code %i other Display: %lx\n", err->type, (long unsigned)err->display, static_cast(err->resourceid), err->serial, err->error_code, err->request_code, err->minor_code, (long unsigned)d); abort(); } static int __attribute__((noreturn)) x11_ioerror_handler(Display *d) { NORM_ERR("X Error: Display %lx\n", (long unsigned)d); exit(1); } /* X11 initializer */ static void init_x11() { DBGP("enter init_x11()"); if (display == nullptr) { const std::string &dispstr = display_name.get(*state); // passing nullptr to XOpenDisplay should open the default display const char *disp = static_cast(!dispstr.empty()) != 0u ? dispstr.c_str() : nullptr; if ((display = XOpenDisplay(disp)) == nullptr) { std::string err = std::string("can't open display: ") + XDisplayName(disp); #ifdef BUILD_WAYLAND fprintf(stderr, "%s\n", err.c_str()); return; #else /* BUILD_WAYLAND */ throw std::runtime_error(err); #endif /* BUILD_WAYLAND */ } } info.x11.monitor.number = 1; info.x11.monitor.current = 0; info.x11.desktop.current = 1; info.x11.desktop.number = 1; info.x11.desktop.all_names.clear(); info.x11.desktop.name.clear(); screen = DefaultScreen(display); display_width = DisplayWidth(display, screen); display_height = DisplayHeight(display, screen); get_x11_desktop_info(display, 0); update_workarea(); /* WARNING, this type not in Xlib spec */ XSetErrorHandler(&x11_error_handler); XSetIOErrorHandler(&x11_ioerror_handler); DBGP("leave init_x11()"); } static void deinit_x11() { if (display) { DBGP("deinit_x11()"); XCloseDisplay(display); display = nullptr; } } static void update_workarea() { /* default work area is display */ workarea[0] = 0; workarea[1] = 0; workarea[2] = display_width; workarea[3] = display_height; #ifdef BUILD_XINERAMA /* if xinerama is being used, adjust workarea to the head's area */ int useless1, useless2; if (XineramaQueryExtension(display, &useless1, &useless2) == 0) { return; /* doesn't even have xinerama */ } if (XineramaIsActive(display) == 0) { return; /* has xinerama but isn't using it */ } int heads = 0; XineramaScreenInfo *si = XineramaQueryScreens(display, &heads); if (si == nullptr) { NORM_ERR( "warning: XineramaQueryScreen returned nullptr, ignoring head " "settings"); return; /* queryscreens failed? */ } int i = head_index.get(*state); if (i < 0 || i >= heads) { NORM_ERR("warning: invalid head index, ignoring head settings"); return; } XineramaScreenInfo *ps = &si[i]; workarea[0] = ps->x_org; workarea[1] = ps->y_org; workarea[2] = workarea[0] + ps->width; workarea[3] = workarea[1] + ps->height; XFree(si); DBGP("Fixed xinerama area to: %d %d %d %d", workarea[0], workarea[1], workarea[2], workarea[3]); #endif } /* Find root window and desktop window. * Return desktop window on success, * and set root and desktop byref return values. * Return 0 on failure. */ static Window find_desktop_window(Window *p_root, Window *p_desktop) { Atom type; int format, i; unsigned long nitems, bytes; unsigned int n; if (!display) return 0; Window root = RootWindow(display, screen); Window win; Window troot, parent, *children; unsigned char *buf = nullptr; if ((p_root == nullptr) || (p_desktop == nullptr)) { return 0; } /* some window managers set __SWM_VROOT to some child of root window */ XQueryTree(display, root, &troot, &parent, &children, &n); for (i = 0; i < static_cast(n); i++) { if (XGetWindowProperty(display, children[i], ATOM(__SWM_VROOT), 0, 1, False, XA_WINDOW, &type, &format, &nitems, &bytes, &buf) == Success && type == XA_WINDOW) { win = *reinterpret_cast(buf); XFree(buf); XFree(children); fprintf(stderr, PACKAGE_NAME ": desktop window (%lx) found from __SWM_VROOT property\n", win); fflush(stderr); *p_root = win; *p_desktop = win; return win; } if (buf != nullptr) { XFree(buf); buf = nullptr; } } XFree(children); /* get subwindows from root */ win = find_subwindow(root, -1, -1); update_workarea(); win = find_subwindow(win, workarea[2], workarea[3]); if (buf != nullptr) { XFree(buf); buf = nullptr; } if (win != root) { fprintf(stderr, PACKAGE_NAME ": desktop window (%lx) is subwindow of root window (%lx)\n", win, root); } else { fprintf(stderr, PACKAGE_NAME ": desktop window (%lx) is root window\n", win); } fflush(stderr); *p_root = root; *p_desktop = win; return win; } #ifdef OWN_WINDOW namespace { /* helper function for set_transparent_background() */ void do_set_background(Window win, uint8_t alpha) { Colour colour = background_colour.get(*state); colour.alpha = alpha; unsigned long xcolor = colour.to_x11_color(display, screen); XSetWindowBackground(display, win, xcolor); } } // namespace /* if no argb visual is configured sets background to ParentRelative for the Window and all parents, else real transparency is used */ void set_transparent_background(Window win) { #ifdef BUILD_ARGB if (have_argb_visual) { // real transparency do_set_background(win, set_transparent.get(*state) ? 0 : own_window_argb_value.get(*state)); } else { #endif /* BUILD_ARGB */ // pseudo transparency if (set_transparent.get(*state)) { Window parent = win; unsigned int i; for (i = 0; i < 50 && parent != RootWindow(display, screen); i++) { Window r, *children; unsigned int n; XSetWindowBackgroundPixmap(display, parent, ParentRelative); XQueryTree(display, parent, &r, &parent, &children, &n); XFree(children); } } else { do_set_background(win, 0); } #ifdef BUILD_ARGB } #endif /* BUILD_ARGB */ } #endif #ifdef BUILD_ARGB static int get_argb_visual(Visual **visual, int *depth) { /* code from gtk project, gdk_screen_get_rgba_visual */ XVisualInfo visual_template; XVisualInfo *visual_list; int nxvisuals = 0, i; visual_template.screen = screen; visual_list = XGetVisualInfo(display, VisualScreenMask, &visual_template, &nxvisuals); for (i = 0; i < nxvisuals; i++) { if (visual_list[i].depth == 32 && (visual_list[i].red_mask == 0xff0000 && visual_list[i].green_mask == 0x00ff00 && visual_list[i].blue_mask == 0x0000ff)) { *visual = visual_list[i].visual; *depth = visual_list[i].depth; DBGP("Found ARGB Visual"); XFree(visual_list); return 1; } } // no argb visual available DBGP("No ARGB Visual found"); XFree(visual_list); return 0; } #endif /* BUILD_ARGB */ void destroy_window() { #ifdef BUILD_XFT if (window.xftdraw != nullptr) { XftDrawDestroy(window.xftdraw); } #endif /* BUILD_XFT */ if (window.gc != nullptr) { XFreeGC(display, window.gc); } memset(&window, 0, sizeof(struct conky_x11_window)); } void x11_init_window(lua::state &l __attribute__((unused)), bool own) { DBGP("enter x11_init_window()"); // own is unused if OWN_WINDOW is not defined (void)own; #ifdef OWN_WINDOW if (own) { int depth = 0, flags = CWOverrideRedirect | CWBackingStore; Visual *visual = nullptr; if (find_desktop_window(&window.root, &window.desktop) == 0U) { DBGP2("no desktop window found"); return; } #ifdef BUILD_ARGB if (use_argb_visual.get(l) && (get_argb_visual(&visual, &depth) != 0)) { have_argb_visual = true; window.visual = visual; window.colourmap = XCreateColormap(display, DefaultRootWindow(display), window.visual, AllocNone); } else { #endif /* BUILD_ARGB */ window.visual = DefaultVisual(display, screen); window.colourmap = DefaultColormap(display, screen); depth = CopyFromParent; visual = CopyFromParent; #ifdef BUILD_ARGB } #endif /* BUILD_ARGB */ int b = border_inner_margin.get(l) + border_width.get(l) + border_outer_margin.get(l); /* Sanity check to avoid making an invalid 0x0 window */ if (b == 0) { b = 1; } XClassHint classHint; // class_name must be a named local variable, so that c_str() remains // valid until we call XmbSetWMProperties() or XSetClassHint. We use // const_cast because, for whatever reason, res_name is not declared as // const char *. XmbSetWMProperties hopefully doesn't modify the value // (hell, even their own example app assigns a literal string constant to // the field) const std::string &class_name = own_window_class.get(l); classHint.res_name = const_cast(class_name.c_str()); classHint.res_class = classHint.res_name; if (own_window_type.get(l) == TYPE_OVERRIDE) { /* An override_redirect True window. * No WM hints or button processing needed. */ XSetWindowAttributes attrs = {ParentRelative, 0L, 0, 0L, 0, 0, Always, 0L, 0L, False, StructureNotifyMask | ExposureMask, 0L, True, 0, 0}; #ifdef BUILD_ARGB if (have_argb_visual) { attrs.colormap = window.colourmap; flags |= CWBorderPixel | CWColormap; } else { #endif /* BUILD_ARGB */ flags |= CWBackPixel; #ifdef BUILD_ARGB } #endif /* BUILD_ARGB */ /* Parent is desktop window (which might be a child of root) */ window.window = XCreateWindow(display, window.desktop, window.x, window.y, b, b, 0, depth, InputOutput, visual, flags, &attrs); XLowerWindow(display, window.window); XSetClassHint(display, window.window, &classHint); fprintf(stderr, PACKAGE_NAME ": window type - override\n"); fflush(stderr); } else { /* own_window_type.get(l) != TYPE_OVERRIDE */ /* A window managed by the window manager. * Process hints and buttons. */ XSetWindowAttributes attrs = {ParentRelative, 0L, 0, 0L, 0, 0, Always, 0L, 0L, False, StructureNotifyMask | ExposureMask | ButtonPressMask | ButtonReleaseMask, 0L, False, 0, 0}; XWMHints wmHint; Atom xa; #ifdef BUILD_ARGB if (have_argb_visual) { attrs.colormap = window.colourmap; flags |= CWBorderPixel | CWColormap; } else { #endif /* BUILD_ARGB */ flags |= CWBackPixel; #ifdef BUILD_ARGB } #endif /* BUILD_ARGB */ if (own_window_type.get(l) == TYPE_DOCK) { window.x = window.y = 0; } /* Parent is root window so WM can take control */ window.window = XCreateWindow(display, window.root, window.x, window.y, b, b, 0, depth, InputOutput, visual, flags, &attrs); uint16_t hints = own_window_hints.get(l); wmHint.flags = InputHint | StateHint; /* allow decorated windows to be given input focus by WM */ wmHint.input = TEST_HINT(hints, HINT_UNDECORATED) ? False : True; #ifdef BUILD_XSHAPE if (!wmHint.input) { /* allow only decorated windows to be given mouse input */ int major_version; int minor_version; if (XShapeQueryVersion(display, &major_version, &minor_version) == 0) { NORM_ERR("Input shapes are not supported"); } else { if (own_window.get(*state) && (own_window_type.get(*state) != TYPE_NORMAL || ((TEST_HINT(own_window_hints.get(*state), HINT_UNDECORATED)) != 0))) { XShapeCombineRectangles(display, window.window, ShapeInput, 0, 0, nullptr, 0, ShapeSet, Unsorted); } } } #endif /* BUILD_XSHAPE */ if (own_window_type.get(l) == TYPE_DOCK || own_window_type.get(l) == TYPE_PANEL) { wmHint.initial_state = WithdrawnState; } else { wmHint.initial_state = NormalState; } XmbSetWMProperties(display, window.window, nullptr, nullptr, argv_copy, argc_copy, nullptr, &wmHint, &classHint); XStoreName(display, window.window, own_window_title.get(l).c_str()); /* Sets an empty WM_PROTOCOLS property */ XSetWMProtocols(display, window.window, nullptr, 0); /* Set window type */ if ((xa = ATOM(_NET_WM_WINDOW_TYPE)) != None) { Atom prop; switch (own_window_type.get(l)) { case TYPE_DESKTOP: prop = ATOM(_NET_WM_WINDOW_TYPE_DESKTOP); fprintf(stderr, PACKAGE_NAME ": window type - desktop\n"); fflush(stderr); break; case TYPE_DOCK: prop = ATOM(_NET_WM_WINDOW_TYPE_DOCK); fprintf(stderr, PACKAGE_NAME ": window type - dock\n"); fflush(stderr); break; case TYPE_PANEL: prop = ATOM(_NET_WM_WINDOW_TYPE_DOCK); fprintf(stderr, PACKAGE_NAME ": window type - panel\n"); fflush(stderr); break; case TYPE_NORMAL: default: prop = ATOM(_NET_WM_WINDOW_TYPE_NORMAL); fprintf(stderr, PACKAGE_NAME ": window type - normal\n"); fflush(stderr); break; } XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeReplace, reinterpret_cast(&prop), 1); } /* Set desired hints */ /* Window decorations */ if (TEST_HINT(hints, HINT_UNDECORATED)) { /* fprintf(stderr, PACKAGE_NAME": hint - undecorated\n"); fflush(stderr); */ xa = ATOM(_MOTIF_WM_HINTS); if (xa != None) { long prop[5] = {2, 0, 0, 0, 0}; XChangeProperty(display, window.window, xa, xa, 32, PropModeReplace, reinterpret_cast(prop), 5); } } /* Below other windows */ if (TEST_HINT(hints, HINT_BELOW)) { /* fprintf(stderr, PACKAGE_NAME": hint - below\n"); fflush(stderr); */ xa = ATOM(_WIN_LAYER); if (xa != None) { long prop = 0; XChangeProperty(display, window.window, xa, XA_CARDINAL, 32, PropModeAppend, reinterpret_cast(&prop), 1); } xa = ATOM(_NET_WM_STATE); if (xa != None) { Atom xa_prop = ATOM(_NET_WM_STATE_BELOW); XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } } /* Above other windows */ if (TEST_HINT(hints, HINT_ABOVE)) { /* fprintf(stderr, PACKAGE_NAME": hint - above\n"); fflush(stderr); */ xa = ATOM(_WIN_LAYER); if (xa != None) { long prop = 6; XChangeProperty(display, window.window, xa, XA_CARDINAL, 32, PropModeAppend, reinterpret_cast(&prop), 1); } xa = ATOM(_NET_WM_STATE); if (xa != None) { Atom xa_prop = ATOM(_NET_WM_STATE_ABOVE); XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } } /* Sticky */ if (TEST_HINT(hints, HINT_STICKY)) { /* fprintf(stderr, PACKAGE_NAME": hint - sticky\n"); fflush(stderr); */ xa = ATOM(_NET_WM_DESKTOP); if (xa != None) { CARD32 xa_prop = 0xFFFFFFFF; XChangeProperty(display, window.window, xa, XA_CARDINAL, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } xa = ATOM(_NET_WM_STATE); if (xa != None) { Atom xa_prop = ATOM(_NET_WM_STATE_STICKY); XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } } /* Skip taskbar */ if (TEST_HINT(hints, HINT_SKIP_TASKBAR)) { /* fprintf(stderr, PACKAGE_NAME": hint - skip_taskbar\n"); fflush(stderr); */ xa = ATOM(_NET_WM_STATE); if (xa != None) { Atom xa_prop = ATOM(_NET_WM_STATE_SKIP_TASKBAR); XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } } /* Skip pager */ if (TEST_HINT(hints, HINT_SKIP_PAGER)) { /* fprintf(stderr, PACKAGE_NAME": hint - skip_pager\n"); fflush(stderr); */ xa = ATOM(_NET_WM_STATE); if (xa != None) { Atom xa_prop = ATOM(_NET_WM_STATE_SKIP_PAGER); XChangeProperty(display, window.window, xa, XA_ATOM, 32, PropModeAppend, reinterpret_cast(&xa_prop), 1); } } } fprintf(stderr, PACKAGE_NAME ": drawing to created window (0x%lx)\n", window.window); fflush(stderr); XMapWindow(display, window.window); } else #endif /* OWN_WINDOW */ { XWindowAttributes attrs; if (window.window == 0u) { window.window = find_desktop_window(&window.root, &window.desktop); } if (window.window == 0u) { DBGP2("no root window found"); return; } window.visual = DefaultVisual(display, screen); window.colourmap = DefaultColormap(display, screen); if (XGetWindowAttributes(display, window.window, &attrs) != 0) { window.width = attrs.width; window.height = attrs.height; } fprintf(stderr, PACKAGE_NAME ": drawing to desktop window\n"); } /* Drawable is same as window. This may be changed by double buffering. */ window.drawable = window.window; XFlush(display); long input_mask = ExposureMask | PropertyChangeMask; #ifdef OWN_WINDOW if (own_window.get(l)) { input_mask |= StructureNotifyMask | ButtonPressMask | ButtonReleaseMask; } #endif /* OWN_WINDOW */ #ifdef BUILD_MOUSE_EVENTS /* it's not recommended to add event masks to special windows in X; causes a crash */ if (own_window_type.get(l) != TYPE_DESKTOP) { input_mask |= ButtonPressMask | ButtonReleaseMask | PointerMotionMask | EnterWindowMask | LeaveWindowMask; } #endif /* BUILD_MOUSE_EVENTS */ XSelectInput(display, window.window, input_mask); window_created = 1; DBGP("leave x11_init_window()"); } static Window find_subwindow(Window win, int w, int h) { unsigned int i, j; Window troot, parent, *children; unsigned int n; /* search subwindows with same size as display or work area */ for (i = 0; i < 10; i++) { XQueryTree(display, win, &troot, &parent, &children, &n); for (j = 0; j < n; j++) { XWindowAttributes attrs; if (XGetWindowAttributes(display, children[j], &attrs) != 0) { /* Window must be mapped and same size as display or * work space */ if (attrs.map_state != 0 && ((attrs.width == display_width && attrs.height == display_height) || (attrs.width == w && attrs.height == h))) { win = children[j]; break; } } } XFree(children); if (j == n) { break; } } return win; } void create_gc() { XGCValues values; values.graphics_exposures = 0; values.function = GXcopy; window.gc = XCreateGC(display, window.drawable, GCFunction | GCGraphicsExposures, &values); } // Get current desktop number static inline void get_x11_desktop_current(Display *current_display, Window root, Atom atom) { Atom actual_type; int actual_format; unsigned long nitems; unsigned long bytes_after; unsigned char *prop = nullptr; struct information *current_info = &info; if (atom == None) { return; } if ((XGetWindowProperty(current_display, root, atom, 0, 1L, False, XA_CARDINAL, &actual_type, &actual_format, &nitems, &bytes_after, &prop) == Success) && (actual_type == XA_CARDINAL) && (nitems == 1L) && (actual_format == 32)) { current_info->x11.desktop.current = prop[0] + 1; } if (prop != nullptr) { XFree(prop); } } // Get total number of available desktops static inline void get_x11_desktop_number(Display *current_display, Window root, Atom atom) { Atom actual_type; int actual_format; unsigned long nitems; unsigned long bytes_after; unsigned char *prop = nullptr; struct information *current_info = &info; if (atom == None) { return; } if ((XGetWindowProperty(current_display, root, atom, 0, 1L, False, XA_CARDINAL, &actual_type, &actual_format, &nitems, &bytes_after, &prop) == Success) && (actual_type == XA_CARDINAL) && (nitems == 1L) && (actual_format == 32)) { current_info->x11.desktop.number = prop[0]; } if (prop != nullptr) { XFree(prop); } } // Get all desktop names static inline void get_x11_desktop_names(Display *current_display, Window root, Atom atom) { Atom actual_type; int actual_format; unsigned long nitems; unsigned long bytes_after; unsigned char *prop = nullptr; struct information *current_info = &info; if (atom == None) { return; } if ((XGetWindowProperty(current_display, root, atom, 0, (~0L), False, ATOM(UTF8_STRING), &actual_type, &actual_format, &nitems, &bytes_after, &prop) == Success) && (actual_type == ATOM(UTF8_STRING)) && (nitems > 0L) && (actual_format == 8)) { current_info->x11.desktop.all_names.assign( reinterpret_cast(prop), nitems); } if (prop != nullptr) { XFree(prop); } } // Get current desktop name static inline void get_x11_desktop_current_name(const std::string &names) { struct information *current_info = &info; unsigned int i = 0, j = 0; int k = 0; while (i < names.size()) { if (names[i++] == '\0') { if (++k == current_info->x11.desktop.current) { current_info->x11.desktop.name.assign(names.c_str() + j); break; } j = i; } } } void get_x11_desktop_info(Display *current_display, Atom atom) { Window root; static Atom atom_current, atom_number, atom_names; struct information *current_info = &info; XWindowAttributes window_attributes; root = RootWindow(current_display, current_info->x11.monitor.current); /* Check if we initialise else retrieve changed property */ if (atom == 0) { atom_current = XInternAtom(current_display, "_NET_CURRENT_DESKTOP", True); atom_number = XInternAtom(current_display, "_NET_NUMBER_OF_DESKTOPS", True); atom_names = XInternAtom(current_display, "_NET_DESKTOP_NAMES", True); get_x11_desktop_current(current_display, root, atom_current); get_x11_desktop_number(current_display, root, atom_number); get_x11_desktop_names(current_display, root, atom_names); get_x11_desktop_current_name(current_info->x11.desktop.all_names); /* Set the PropertyChangeMask on the root window, if not set */ XGetWindowAttributes(display, root, &window_attributes); if ((window_attributes.your_event_mask & PropertyChangeMask) == 0) { XSetWindowAttributes attributes; attributes.event_mask = window_attributes.your_event_mask | PropertyChangeMask; XChangeWindowAttributes(display, root, CWEventMask, &attributes); XGetWindowAttributes(display, root, &window_attributes); } } else { if (atom == atom_current) { get_x11_desktop_current(current_display, root, atom_current); get_x11_desktop_current_name(current_info->x11.desktop.all_names); } else if (atom == atom_number) { get_x11_desktop_number(current_display, root, atom_number); } else if (atom == atom_names) { get_x11_desktop_names(current_display, root, atom_names); get_x11_desktop_current_name(current_info->x11.desktop.all_names); } } } static const char NOT_IN_X[] = "Not running in X"; void print_monitor(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; if (!out_to_x.get(*state)) { strncpy(p, NOT_IN_X, p_max_size); return; } snprintf(p, p_max_size, "%d", XDefaultScreen(display)); } void print_monitor_number(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; if (!out_to_x.get(*state)) { strncpy(p, NOT_IN_X, p_max_size); return; } snprintf(p, p_max_size, "%d", XScreenCount(display)); } void print_desktop(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; if (!out_to_x.get(*state)) { strncpy(p, NOT_IN_X, p_max_size); return; } snprintf(p, p_max_size, "%d", info.x11.desktop.current); } void print_desktop_number(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; if (!out_to_x.get(*state)) { strncpy(p, NOT_IN_X, p_max_size); return; } snprintf(p, p_max_size, "%d", info.x11.desktop.number); } void print_desktop_name(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; if (!out_to_x.get(*state)) { strncpy(p, NOT_IN_X, p_max_size); } else { strncpy(p, info.x11.desktop.name.c_str(), p_max_size); } } #ifdef OWN_WINDOW /* reserve window manager space */ void set_struts(int sidenum) { Atom strut; if ((strut = ATOM(_NET_WM_STRUT)) != None) { /* reserve space at left, right, top, bottom */ signed long sizes[12] = {0}; int i; /* define strut depth */ switch (sidenum) { case 0: /* left side */ sizes[0] = window.x + window.width; break; case 1: /* right side */ sizes[1] = display_width - window.x; break; case 2: /* top side */ sizes[2] = window.y + window.height; break; case 3: /* bottom side */ sizes[3] = display_height - window.y; break; } /* define partial strut length */ if (sidenum <= 1) { sizes[4 + (sidenum * 2)] = window.y; sizes[5 + (sidenum * 2)] = window.y + window.height; } else if (sidenum <= 3) { sizes[4 + (sidenum * 2)] = window.x; sizes[5 + (sidenum * 2)] = window.x + window.width; } /* check constraints */ for (i = 0; i < 12; i++) { if (sizes[i] < 0) { sizes[i] = 0; } else { if (i <= 1 || i >= 8) { if (sizes[i] > display_width) { sizes[i] = display_width; } } else { if (sizes[i] > display_height) { sizes[i] = display_height; } } } } XChangeProperty(display, window.window, strut, XA_CARDINAL, 32, PropModeReplace, reinterpret_cast(&sizes), 4); if ((strut = ATOM(_NET_WM_STRUT_PARTIAL)) != None) { XChangeProperty(display, window.window, strut, XA_CARDINAL, 32, PropModeReplace, reinterpret_cast(&sizes), 12); } } } #endif /* OWN_WINDOW */ #ifdef BUILD_XDBE void xdbe_swap_buffers() { if (use_xdbe.get(*state)) { XdbeSwapInfo swap; swap.swap_window = window.window; swap.swap_action = XdbeBackground; XdbeSwapBuffers(display, &swap, 1); } } #else void xpmdb_swap_buffers(void) { if (use_xpmdb.get(*state)) { XCopyArea(display, window.back_buffer, window.window, window.gc, 0, 0, window.width, window.height, 0, 0); XSetForeground(display, window.gc, 0); XFillRectangle(display, window.drawable, window.gc, 0, 0, window.width, window.height); XFlush(display); } } #endif /* BUILD_XDBE */ void print_kdb_led(const int keybit, char *p, unsigned int p_max_size) { XKeyboardState x; XGetKeyboardControl(display, &x); snprintf(p, p_max_size, "%s", (x.led_mask & keybit ? "On" : "Off")); } void print_key_caps_lock(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; print_kdb_led(1, p, p_max_size); } void print_key_num_lock(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; print_kdb_led(2, p, p_max_size); } void print_key_scroll_lock(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; print_kdb_led(4, p, p_max_size); } void print_keyboard_layout(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; char *group = NULL; XkbStateRec state; XkbDescPtr desc; XkbGetState(display, XkbUseCoreKbd, &state); desc = XkbGetKeyboard(display, XkbAllComponentsMask, XkbUseCoreKbd); group = XGetAtomName(display, desc->names->groups[state.group]); snprintf(p, p_max_size, "%s", (group != NULL ? group : "unknown")); XFree(group); XkbFreeKeyboard(desc, XkbGBN_AllComponentsMask, True); } void print_mouse_speed(struct text_object *obj, char *p, unsigned int p_max_size) { (void)obj; int acc_num = 0; int acc_denom = 0; int threshold = 0; XGetPointerControl(display, &acc_num, &acc_denom, &threshold); snprintf(p, p_max_size, "%d%%", (110 - threshold)); }