Exemple #1
0
class XSettingsManager(object):
    def __init__(self, screen_number=0):
        selection = "_XSETTINGS_S%i" % screen_number
        self._manager = ManagerSelection(display_get_default(), selection)
        # Technically I suppose ICCCM says we should use FORCE, but it's not
        # like a window manager where you have to wait for the old wm to clean
        # things up before you can do anything... as soon as the selection is
        # gone, the settings are gone. (Also, if we're stealing from
        # ourselves, we probably don't clean up the window properly.)
        self._manager.acquire(self._manager.FORCE_AND_RETURN)
        self._window = self._manager.window()

    def set_settings(self, settings):
        if isinstance(settings, list):
            settings = tuple(settings)
        elif not isinstance(settings, tuple):
            log.warn(
                "Warning: discarding xsettings because of incompatible format: %s",
                type(settings))
            return
        try:
            prop_set(self._window, XSETTINGS, XSETTINGS_TYPE, settings)
        except XError as e:
            log.error("Error: XSettings not applied")
            log.error(" %s", e)
Exemple #2
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 def __init__(self, screen_number=0):
     selection = "_XSETTINGS_S%i" % screen_number
     self._manager = ManagerSelection(selection)
     # Technically I suppose ICCCM says we should use FORCE, but it's not
     # like a window manager where you have to wait for the old wm to clean
     # things up before you can do anything... as soon as the selection is
     # gone, the settings are gone. (Also, if we're stealing from
     # ourselves, we probably don't clean up the window properly.)
     self._manager.acquire(self._manager.FORCE_AND_RETURN)
     self._window = self._manager.window()
Exemple #3
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class XSettingsManager(object):
    def __init__(self, screen_number=0):
        selection = "_XSETTINGS_S%s" % screen_number
        self._manager = ManagerSelection(gtk.gdk.display_get_default(), selection)
        # Technically I suppose ICCCM says we should use FORCE, but it's not
        # like a window manager where you have to wait for the old wm to clean
        # things up before you can do anything... as soon as the selection is
        # gone, the settings are gone. (Also, if we're stealing from
        # ourselves, we probably don't clean up the window properly.)
        self._manager.acquire(self._manager.FORCE_AND_RETURN)
        self._window = self._manager.window()

    def set_settings(self, settings):
        if type(settings)!=tuple:
            log.warn("discarding xsettings because of incompatible format: %s", type(settings))
            return
        prop_set(self._window, XSETTINGS, XSETTINGS_TYPE, settings)
Exemple #4
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 def __init__(self, screen_number=0):
     selection = "_XSETTINGS_S%s" % screen_number
     self._manager = ManagerSelection(gtk.gdk.display_get_default(), selection)
     # Technically I suppose ICCCM says we should use FORCE, but it's not
     # like a window manager where you have to wait for the old wm to clean
     # things up before you can do anything... as soon as the selection is
     # gone, the settings are gone. (Also, if we're stealing from
     # ourselves, we probably don't clean up the window properly.)
     self._manager.acquire(self._manager.FORCE_AND_RETURN)
     self._window = self._manager.window()
Exemple #5
0
class XSettingsManager(object):
    def __init__(self, screen_number=0):
        selection = "_XSETTINGS_S%s" % screen_number
        self._manager = ManagerSelection(gtk.gdk.display_get_default(), selection)
        # Technically I suppose ICCCM says we should use FORCE, but it's not
        # like a window manager where you have to wait for the old wm to clean
        # things up before you can do anything... as soon as the selection is
        # gone, the settings are gone. (Also, if we're stealing from
        # ourselves, we probably don't clean up the window properly.)
        self._manager.acquire(self._manager.FORCE_AND_RETURN)
        self._window = self._manager.window()

    # This is factored out as a separate function to make it easier to test
    # XSettingsWatcher:
    def set_blob_in_place(self, settings_blob):
        if type(settings_blob)!=tuple:
            log.warn("discarding xsettings because of incompatible format: %s", type(settings_blob))
            return
        prop_set(self._window, XSETTINGS, XSETTINGS_TYPE, settings_blob)
Exemple #6
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    def __init__(self, replace_other_wm, wm_name, display=None):
        gobject.GObject.__init__(self)

        if display is None:
            display = display_get_default()
        self._display = display
        self._root = self._display.get_default_screen().get_root_window()
        self._wm_name = wm_name
        self._ewmh_window = None

        self._windows = {}
        # EWMH says we have to know the order of our windows oldest to
        # youngest...
        self._windows_in_order = []

        # Become the Official Window Manager of this year's display:
        self._wm_selection = ManagerSelection(self._display, "WM_S0")
        self._cm_wm_selection = ManagerSelection(self._display,
                                                 "_NET_WM_CM_S0")
        self._wm_selection.connect("selection-lost", self._lost_wm_selection)
        self._cm_wm_selection.connect("selection-lost",
                                      self._lost_wm_selection)
        # May throw AlreadyOwned:
        if replace_other_wm:
            mode = self._wm_selection.FORCE
        else:
            mode = self._wm_selection.IF_UNOWNED
        self._wm_selection.acquire(mode)
        self._cm_wm_selection.acquire(mode)

        # Set up the necessary EWMH properties on the root window.
        self._setup_ewmh_window()
        # Start with just one desktop:
        self.set_desktop_list((u"Main", ))
        self.set_current_desktop(0)
        # Start with the full display as workarea:
        root_w, root_h = get_default_root_window().get_geometry()[2:4]
        self.root_set("_NET_SUPPORTED", ["atom"], NET_SUPPORTED)
        self.set_workarea(0, 0, root_w, root_h)
        self.set_desktop_geometry(root_w, root_h)
        self.root_set("_NET_DESKTOP_VIEWPORT", ["u32"], [0, 0])

        self.size_constraints = DEFAULT_SIZE_CONSTRAINTS

        # Load up our full-screen widget
        self._world_window = None
        if not is_gtk3():
            self._world_window = WorldWindow(
                self._display.get_default_screen())
            self.notify("toplevel")
            self._world_window.show_all()

        # Okay, ready to select for SubstructureRedirect and then load in all
        # the existing clients.
        add_event_receiver(self._root, self)
        add_fallback_receiver("xpra-client-message-event", self)
        #when reparenting, the events may get sent
        #to a window that is already destroyed
        #and we don't want to miss those events, so:
        add_fallback_receiver("child-map-request-event", self)
        rxid = get_xwindow(self._root)
        X11Window.substructureRedirect(rxid)

        for w in get_children(self._root):
            # Checking for FOREIGN here filters out anything that we've
            # created ourselves (like, say, the world window), and checking
            # for mapped filters out any withdrawn windows.
            xid = get_xwindow(w)
            if (w.get_window_type() == GDKWINDOW_FOREIGN
                    and not X11Window.is_override_redirect(xid)
                    and X11Window.is_mapped(xid)):
                log("Wm managing pre-existing child window %#x", xid)
                self._manage_client(w)

        # Also watch for focus change events on the root window
        X11Window.selectFocusChange(rxid)
        X11Keyboard.selectBellNotification(True)
Exemple #7
0
class Wm(gobject.GObject):

    __gproperties__ = {
        "windows":
        (gobject.TYPE_PYOBJECT, "Set of managed windows (as WindowModels)", "",
         PARAM_READABLE),
        "toplevel":
        (gobject.TYPE_PYOBJECT, "Toplevel container widget for the display",
         "", PARAM_READABLE),
    }
    __gsignals__ = {
        # Public use:
        # A new window has shown up:
        "new-window": one_arg_signal,
        "show-desktop": one_arg_signal,
        # You can emit this to cause the WM to quit, or the WM may
        # spontaneously raise it if another WM takes over the display.  By
        # default, unmanages all windows:
        "quit": no_arg_signal,

        # Mostly intended for internal use:
        "child-map-request-event": one_arg_signal,
        "child-configure-request-event": one_arg_signal,
        "xpra-focus-in-event": one_arg_signal,
        "xpra-focus-out-event": one_arg_signal,
        "xpra-client-message-event": one_arg_signal,
        "xpra-xkb-event": one_arg_signal,
    }

    def __init__(self, replace_other_wm, wm_name, display=None):
        gobject.GObject.__init__(self)

        if display is None:
            display = display_get_default()
        self._display = display
        self._root = self._display.get_default_screen().get_root_window()
        self._wm_name = wm_name
        self._ewmh_window = None

        self._windows = {}
        # EWMH says we have to know the order of our windows oldest to
        # youngest...
        self._windows_in_order = []

        # Become the Official Window Manager of this year's display:
        self._wm_selection = ManagerSelection(self._display, "WM_S0")
        self._cm_wm_selection = ManagerSelection(self._display,
                                                 "_NET_WM_CM_S0")
        self._wm_selection.connect("selection-lost", self._lost_wm_selection)
        self._cm_wm_selection.connect("selection-lost",
                                      self._lost_wm_selection)
        # May throw AlreadyOwned:
        if replace_other_wm:
            mode = self._wm_selection.FORCE
        else:
            mode = self._wm_selection.IF_UNOWNED
        self._wm_selection.acquire(mode)
        self._cm_wm_selection.acquire(mode)

        # Set up the necessary EWMH properties on the root window.
        self._setup_ewmh_window()
        # Start with just one desktop:
        self.set_desktop_list((u"Main", ))
        self.set_current_desktop(0)
        # Start with the full display as workarea:
        root_w, root_h = get_default_root_window().get_geometry()[2:4]
        self.root_set("_NET_SUPPORTED", ["atom"], NET_SUPPORTED)
        self.set_workarea(0, 0, root_w, root_h)
        self.set_desktop_geometry(root_w, root_h)
        self.root_set("_NET_DESKTOP_VIEWPORT", ["u32"], [0, 0])

        self.size_constraints = DEFAULT_SIZE_CONSTRAINTS

        # Load up our full-screen widget
        self._world_window = None
        if not is_gtk3():
            self._world_window = WorldWindow(
                self._display.get_default_screen())
            self.notify("toplevel")
            self._world_window.show_all()

        # Okay, ready to select for SubstructureRedirect and then load in all
        # the existing clients.
        add_event_receiver(self._root, self)
        add_fallback_receiver("xpra-client-message-event", self)
        #when reparenting, the events may get sent
        #to a window that is already destroyed
        #and we don't want to miss those events, so:
        add_fallback_receiver("child-map-request-event", self)
        rxid = get_xwindow(self._root)
        X11Window.substructureRedirect(rxid)

        for w in get_children(self._root):
            # Checking for FOREIGN here filters out anything that we've
            # created ourselves (like, say, the world window), and checking
            # for mapped filters out any withdrawn windows.
            xid = get_xwindow(w)
            if (w.get_window_type() == GDKWINDOW_FOREIGN
                    and not X11Window.is_override_redirect(xid)
                    and X11Window.is_mapped(xid)):
                log("Wm managing pre-existing child window %#x", xid)
                self._manage_client(w)

        # Also watch for focus change events on the root window
        X11Window.selectFocusChange(rxid)
        X11Keyboard.selectBellNotification(True)

        # FIXME:
        # Need viewport abstraction for _NET_CURRENT_DESKTOP...
        # Tray's need to provide info for _NET_ACTIVE_WINDOW and _NET_WORKAREA
        # (and notifications for both)

    def root_set(self, *args):
        prop_set(self._root, *args)

    def root_get(self, *args):
        return prop_get(self._root, *args)

    def set_dpi(self, xdpi, ydpi):
        #this is used by some newer versions of the dummy driver (xf86-driver-dummy)
        #(and will not be honoured by anything else..)
        self.root_set("dummy-constant-xdpi", "u32", xdpi)
        self.root_set("dummy-constant-ydpi", "u32", ydpi)
        screenlog("set_dpi(%i, %i)", xdpi, ydpi)

    def set_workarea(self, x, y, width, height):
        v = [x, y, width, height]
        screenlog("_NET_WORKAREA=%s", v)
        self.root_set("_NET_WORKAREA", ["u32"], v)

    def set_desktop_geometry(self, width, height):
        v = [width, height]
        screenlog("_NET_DESKTOP_GEOMETRY=%s", v)
        self.root_set("_NET_DESKTOP_GEOMETRY", ["u32"], v)
        #update all the windows:
        for model in self._windows.values():
            model.update_desktop_geometry(width, height)

    def set_size_constraints(self,
                             minw=0,
                             minh=0,
                             maxw=MAX_WINDOW_SIZE,
                             maxh=MAX_WINDOW_SIZE):
        log("set_size_constraints%s", (minw, minh, maxw, maxh))
        self.size_constraints = minw, minh, maxw, maxh
        #update all the windows:
        for model in self._windows.values():
            model.update_size_constraints(minw, minh, maxw, maxh)

    def set_default_frame_extents(self, v):
        framelog("set_default_frame_extents(%s)", v)
        if not v or len(v) != 4:
            v = (0, 0, 0, 0)
        self.root_set("DEFAULT_NET_FRAME_EXTENTS", ["u32"], v)
        #update the models that are using the global default value:
        for win in self._windows.values():
            if win.is_OR() or win.is_tray():
                continue
            cur = win.get_property("frame")
            if cur is None:
                win._handle_frame_changed()

    def do_get_property(self, pspec):
        if pspec.name == "windows":
            return frozenset(self._windows.values())
        if pspec.name == "toplevel":
            return self._world_window
        assert False

    # This is in some sense the key entry point to the entire WM program.  We
    # have detected a new client window, and start managing it:
    def _manage_client(self, gdkwindow):
        if not gdkwindow:
            return
        if gdkwindow in self._windows:
            #already managed
            return
        try:
            with xsync:
                log("_manage_client(%s)", gdkwindow)
                desktop_geometry = self.root_get("_NET_DESKTOP_GEOMETRY",
                                                 ["u32"], True, False)
                win = WindowModel(self._root, gdkwindow, desktop_geometry,
                                  self.size_constraints)
        except Exception as e:
            if LOG_MANAGE_FAILURES or not isinstance(e, Unmanageable):
                l = log.warn
            else:
                l = log
            l("Warning: failed to manage client window %#x:",
              get_xwindow(gdkwindow))
            l(" %s", e)
            l("", exc_info=True)
            with xswallow:
                l(" window name: %s", window_name(gdkwindow))
                l(" window info: %s", window_info(gdkwindow))
        else:
            win.managed_connect("unmanaged", self._handle_client_unmanaged)
            self._windows[gdkwindow] = win
            self._windows_in_order.append(gdkwindow)
            self.notify("windows")
            self._update_window_list()
            self.emit("new-window", win)

    def _handle_client_unmanaged(self, window, _wm_exiting):
        gdkwindow = window.get_property("client-window")
        assert gdkwindow in self._windows
        del self._windows[gdkwindow]
        self._windows_in_order.remove(gdkwindow)
        self._update_window_list()
        self.notify("windows")

    def _update_window_list(self, *_args):
        # Ignore errors because not all the windows may still exist; if so,
        # then it's okay to leave the lists out of date for a moment, because
        # in a moment we'll get a signal telling us about the window that
        # doesn't exist anymore, will remove it from the list, and then call
        # _update_window_list again.
        with xswallow:
            self.root_set("_NET_CLIENT_LIST", ["window"],
                          self._windows_in_order)
            # This is a lie, but we don't maintain a stacking order, so...
            self.root_set("_NET_CLIENT_LIST_STACKING", ["window"],
                          self._windows_in_order)

    def do_xpra_client_message_event(self, event):
        # FIXME
        # Need to listen for:
        #   _NET_ACTIVE_WINDOW
        #   _NET_CURRENT_DESKTOP
        #   _NET_WM_PING responses
        # and maybe:
        #   _NET_RESTACK_WINDOW
        #   _NET_WM_STATE
        log("do_xpra_client_message_event(%s)", event)
        if event.message_type == "_NET_SHOWING_DESKTOP":
            show = bool(event.data[0])
            self.emit("show-desktop", show)
        elif event.message_type == "_NET_REQUEST_FRAME_EXTENTS" and FRAME_EXTENTS:
            #if we're here, that means the window model does not exist
            #(or it would have processed the event)
            #so this must be a an unmapped window
            frame = (0, 0, 0, 0)
            with xswallow:
                if not X11Window.is_override_redirect(get_xwindow(
                        event.window)):
                    #use the global default:
                    frame = prop_get(self._root,
                                     "DEFAULT_NET_FRAME_EXTENTS", ["u32"],
                                     ignore_errors=True)
                if not frame:
                    #fallback:
                    frame = (0, 0, 0, 0)
                framelog(
                    "_NET_REQUEST_FRAME_EXTENTS: setting _NET_FRAME_EXTENTS=%s on %#x",
                    frame, get_xwindow(event.window))
                prop_set(event.window, "_NET_FRAME_EXTENTS", ["u32"], frame)

    def _lost_wm_selection(self, selection):
        log.info("Lost WM selection %s, exiting", selection)
        self.emit("quit")

    def do_quit(self):
        self.cleanup()

    def cleanup(self):
        remove_fallback_receiver("xpra-client-message-event", self)
        remove_fallback_receiver("child-map-request-event", self)
        for win in tuple(self._windows.values()):
            win.unmanage(True)

    def do_child_map_request_event(self, event):
        log("Found a potential client")
        self._manage_client(event.window)

    def do_child_configure_request_event(self, event):
        # The point of this method is to handle configure requests on
        # withdrawn windows.  We simply allow them to move/resize any way they
        # want.  This is harmless because the window isn't visible anyway (and
        # apps can create unmapped windows with whatever coordinates they want
        # anyway, no harm in letting them move existing ones around), and it
        # means that when the window actually gets mapped, we have more
        # accurate info on what the app is actually requesting.
        model = self._windows.get(event.window)
        if model:
            #the window has been reparented already,
            #but we're getting the configure request event on the root window
            #forward it to the model
            log(
                "do_child_configure_request_event(%s) value_mask=%s, forwarding to %s",
                event, configure_bits(event.value_mask), model)
            model.do_child_configure_request_event(event)
            return
        log(
            "do_child_configure_request_event(%s) value_mask=%s, reconfigure on withdrawn window",
            event, configure_bits(event.value_mask))
        with xswallow:
            xid = get_xwindow(event.window)
            x, y, w, h = X11Window.getGeometry(xid)[:4]
            if event.value_mask & CWX:
                x = event.x
            if event.value_mask & CWY:
                y = event.y
            if event.value_mask & CWWidth:
                w = event.width
            if event.value_mask & CWHeight:
                h = event.height
            if event.value_mask & (CWX | CWY | CWWidth | CWHeight):
                log("updated window geometry for window %#x from %s to %s",
                    xid,
                    X11Window.getGeometry(xid)[:4], (x, y, w, h))
            X11Window.configureAndNotify(xid, x, y, w, h, event.value_mask)

    def do_xpra_focus_in_event(self, event):
        # The purpose of this function is to detect when the focus mode has
        # gone to PointerRoot or None, so that it can be given back to
        # something real.  This is easy to detect -- a FocusIn event with
        # detail PointerRoot or None is generated on the root window.
        focuslog("wm.do_xpra_focus_in_event(%s)", event)
        if event.detail in (NotifyPointerRoot,
                            NotifyDetailNone) and self._world_window:
            self._world_window.reset_x_focus()

    def do_xpra_focus_out_event(self, event):
        focuslog("wm.do_xpra_focus_out_event(%s) XGetInputFocus=%s", event,
                 X11Window.XGetInputFocus())

    def set_desktop_list(self, desktops):
        log("set_desktop_list(%s)", desktops)
        self.root_set("_NET_NUMBER_OF_DESKTOPS", "u32", len(desktops))
        self.root_set("_NET_DESKTOP_NAMES", ["utf8"], [u(d) for d in desktops])

    def set_current_desktop(self, index):
        self.root_set("_NET_CURRENT_DESKTOP", "u32", index)

    def _setup_ewmh_window(self):
        # Set up a 1x1 invisible unmapped window, with which to participate in
        # EWMH's _NET_SUPPORTING_WM_CHECK protocol.  The only important things
        # about this window are the _NET_SUPPORTING_WM_CHECK property, and
        # its title (which is supposed to be the name of the window manager).

        # NB, GDK will do strange things to this window.  We don't want to use
        # it for anything.  (In particular, it will call XSelectInput on it,
        # which is fine normally when GDK is running in a client, but since it
        # happens to be using the same connection as we the WM, it will
        # clobber any XSelectInput calls that *we* might have wanted to make
        # on this window.)  Also, GDK might silently swallow all events that
        # are detected on it, anyway.
        self._ewmh_window = GDKWindow(self._root,
                                      wclass=CLASS_INPUT_ONLY,
                                      title=self._wm_name)
        prop_set(self._ewmh_window, "_NET_SUPPORTING_WM_CHECK", "window",
                 self._ewmh_window)
        self.root_set("_NET_SUPPORTING_WM_CHECK", "window", self._ewmh_window)
        self.root_set("_NET_WM_NAME", "utf8", u(self._wm_name))

    def get_net_wm_name(self):
        try:
            return prop_get(self._ewmh_window,
                            "_NET_WM_NAME",
                            "utf8",
                            ignore_errors=False,
                            raise_xerrors=False)
        except Exception as e:
            log.error("error querying _NET_WM_NAME: %s", e)