base/message_pump_glib_x.cc - platform/external/chromium - Git at Google

 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/message_pump_glib_x.h"

 #include <gdk/gdkx.h>
 #if defined(HAVE_XINPUT2)
 #include <X11/extensions/XInput2.h>
 #else
 #include <X11/Xlib.h>
 #endif

 #include "base/message_pump_glib_x_dispatch.h"

 namespace {

 gboolean PlaceholderDispatch(GSource* source,
                              GSourceFunc cb,
                              gpointer data) {
   return TRUE;
 }

 #if defined(HAVE_XINPUT2)

 // Setup XInput2 select for the GtkWidget.
 gboolean GtkWidgetRealizeCallback(GSignalInvocationHint* hint, guint nparams,
                                   const GValue* pvalues, gpointer data) {
   GtkWidget* widget = GTK_WIDGET(g_value_get_object(pvalues));
   GdkWindow* window = widget->window;
   base::MessagePumpGlibX* msgpump = static_cast<base::MessagePumpGlibX*>(data);

   DCHECK(window);  // TODO(sad): Remove once determined if necessary.

   if (GDK_WINDOW_TYPE(window) != GDK_WINDOW_TOPLEVEL &&
       GDK_WINDOW_TYPE(window) != GDK_WINDOW_CHILD &&
       GDK_WINDOW_TYPE(window) != GDK_WINDOW_DIALOG)
     return true;

   // TODO(sad): Do we need to set a flag on |window| to make sure we don't
   // select for the same GdkWindow multiple times? Does it matter?
   msgpump->SetupXInput2ForXWindow(GDK_WINDOW_XID(window));

   return true;
 }

 // We need to capture all the GDK windows that get created, and start
 // listening for XInput2 events. So we setup a callback to the 'realize'
 // signal for GTK+ widgets, so that whenever the signal triggers for any
 // GtkWidget, which means the GtkWidget should now have a GdkWindow, we can
 // setup XInput2 events for the GdkWindow.
 static guint realize_signal_id = 0;
 static guint realize_hook_id = 0;

 void SetupGtkWidgetRealizeNotifier(base::MessagePumpGlibX* msgpump) {
   gpointer klass = g_type_class_ref(GTK_TYPE_WIDGET);

   g_signal_parse_name("realize", GTK_TYPE_WIDGET,
                       &realize_signal_id, NULL, FALSE);
   realize_hook_id = g_signal_add_emission_hook(realize_signal_id, 0,
       GtkWidgetRealizeCallback, static_cast<gpointer>(msgpump), NULL);

   g_type_class_unref(klass);
 }

 void RemoveGtkWidgetRealizeNotifier() {
   if (realize_signal_id != 0)
     g_signal_remove_emission_hook(realize_signal_id, realize_hook_id);
   realize_signal_id = 0;
   realize_hook_id = 0;
 }

 #endif  // HAVE_XINPUT2

 }  // namespace

 namespace base {

 MessagePumpGlibX::MessagePumpGlibX() : base::MessagePumpForUI(),
 #if defined(HAVE_XINPUT2)
     xiopcode_(-1),
     pointer_devices_(),
 #endif
     gdksource_(NULL),
     dispatching_event_(false),
     capture_x_events_(0),
     capture_gdk_events_(0) {
   gdk_event_handler_set(&EventDispatcherX, this, NULL);

 #if defined(HAVE_XINPUT2)
   InitializeXInput2();
 #endif
   InitializeEventsToCapture();
 }

 MessagePumpGlibX::~MessagePumpGlibX() {
 #if defined(HAVE_XINPUT2)
   RemoveGtkWidgetRealizeNotifier();
 #endif
 }

 #if defined(HAVE_XINPUT2)
 void MessagePumpGlibX::SetupXInput2ForXWindow(Window xwindow) {
   Display* xdisplay = GDK_DISPLAY_XDISPLAY(gdk_display_get_default());

   // Setup mask for mouse events.
   unsigned char mask[(XI_LASTEVENT + 7)/8];
   memset(mask, 0, sizeof(mask));

   XISetMask(mask, XI_ButtonPress);
   XISetMask(mask, XI_ButtonRelease);
   XISetMask(mask, XI_Motion);

   XIEventMask evmasks[pointer_devices_.size()];
   int count = 0;
   for (std::set<int>::const_iterator iter = pointer_devices_.begin();
        iter != pointer_devices_.end();
        ++iter, ++count) {
     evmasks[count].deviceid = *iter;
     evmasks[count].mask_len = sizeof(mask);
     evmasks[count].mask = mask;
   }

   XISelectEvents(xdisplay, xwindow, evmasks, pointer_devices_.size());

   // TODO(sad): Setup masks for keyboard events.

   XFlush(xdisplay);
 }
 #endif  // HAVE_XINPUT2

 bool MessagePumpGlibX::RunOnce(GMainContext* context, bool block) {
   GdkDisplay* gdisp = gdk_display_get_default();
   if (!gdisp || !GetDispatcher())
     return MessagePumpForUI::RunOnce(context, block);

   Display* display = GDK_DISPLAY_XDISPLAY(gdisp);
   bool should_quit = false;

   if (XPending(display)) {
     XEvent xev;
     XPeekEvent(display, &xev);
     if (capture_x_events_[xev.type]
 #if defined(HAVE_XINPUT2)
         && (xev.type != GenericEvent || xev.xcookie.extension == xiopcode_)
 #endif
         ) {
       XNextEvent(display, &xev);

 #if defined(HAVE_XINPUT2)
       bool have_cookie = false;
       if (xev.type == GenericEvent &&
           XGetEventData(xev.xgeneric.display, &xev.xcookie)) {
         have_cookie = true;
       }
 #endif

       MessagePumpGlibXDispatcher::DispatchStatus status =
           static_cast<MessagePumpGlibXDispatcher*>
           (GetDispatcher())->DispatchX(&xev);

       if (status == MessagePumpGlibXDispatcher::EVENT_QUIT) {
         should_quit = true;
         Quit();
       } else if (status == MessagePumpGlibXDispatcher::EVENT_IGNORED) {
         DLOG(WARNING) << "Event (" << xev.type << ") not handled.";

         // TODO(sad): It is necessary to put back the event so that the default
         // GDK events handler can take care of it. Without this, it is
         // impossible to use the omnibox at the moment. However, this will
         // eventually be removed once the omnibox code is updated for touchui.
         XPutBackEvent(display, &xev);
         if (gdksource_)
           gdksource_->source_funcs->dispatch = gdkdispatcher_;
         g_main_context_iteration(context, FALSE);
       }

 #if defined(HAVE_XINPUT2)
       if (have_cookie) {
         XFreeEventData(xev.xgeneric.display, &xev.xcookie);
       }
 #endif
     } else {
       // TODO(sad): A couple of extra events can still sneak in during this.
       // Those should be sent back to the X queue from the dispatcher
       // EventDispatcherX.
       if (gdksource_)
         gdksource_->source_funcs->dispatch = gdkdispatcher_;
       g_main_context_iteration(context, FALSE);
     }
   }

   if (should_quit)
     return true;

   bool retvalue;
   if (gdksource_) {
     // Replace the dispatch callback of the GDK event source temporarily so that
     // it doesn't read events from X.
     gboolean (*cb)(GSource*, GSourceFunc, void*) =
         gdksource_->source_funcs->dispatch;
     gdksource_->source_funcs->dispatch = PlaceholderDispatch;

     dispatching_event_ = true;
     retvalue = g_main_context_iteration(context, block);
     dispatching_event_ = false;

     gdksource_->source_funcs->dispatch = cb;
   } else {
     retvalue = g_main_context_iteration(context, block);
   }

   return retvalue;
 }

 void MessagePumpGlibX::EventDispatcherX(GdkEvent* event, gpointer data) {
   MessagePumpGlibX* pump_x = reinterpret_cast<MessagePumpGlibX*>(data);

   if (!pump_x->gdksource_) {
     pump_x->gdksource_ = g_main_current_source();
     if (pump_x->gdksource_)
       pump_x->gdkdispatcher_ = pump_x->gdksource_->source_funcs->dispatch;
   } else if (!pump_x->IsDispatchingEvent()) {
     if (event->type != GDK_NOTHING &&
         pump_x->capture_gdk_events_[event->type]) {
       // TODO(sad): An X event is caught by the GDK handler. Put it back in the
       // X queue so that we catch it in the next iteration. When done, the
       // following DLOG statement will be removed.
       DLOG(WARNING) << "GDK received an event it shouldn't have";
     }
   }

   pump_x->DispatchEvents(event);
 }

 void MessagePumpGlibX::InitializeEventsToCapture(void) {
   // TODO(sad): Decide which events we want to capture and update the tables
   // accordingly.
   capture_x_events_[KeyPress] = true;
   capture_gdk_events_[GDK_KEY_PRESS] = true;

   capture_x_events_[KeyRelease] = true;
   capture_gdk_events_[GDK_KEY_RELEASE] = true;

   capture_x_events_[ButtonPress] = true;
   capture_gdk_events_[GDK_BUTTON_PRESS] = true;

   capture_x_events_[ButtonRelease] = true;
   capture_gdk_events_[GDK_BUTTON_RELEASE] = true;

   capture_x_events_[MotionNotify] = true;
   capture_gdk_events_[GDK_MOTION_NOTIFY] = true;

 #if defined(HAVE_XINPUT2)
   capture_x_events_[GenericEvent] = true;
 #endif
 }

 #if defined(HAVE_XINPUT2)
 void MessagePumpGlibX::InitializeXInput2(void) {
   GdkDisplay* display = gdk_display_get_default();
   if (!display)
     return;

   Display* xdisplay = GDK_DISPLAY_XDISPLAY(display);
   int event, err;

   if (!XQueryExtension(xdisplay, "XInputExtension", &xiopcode_, &event, &err)) {
     DLOG(WARNING) << "X Input extension not available.";
     xiopcode_ = -1;
     return;
   }

   int major = 2, minor = 0;
   if (XIQueryVersion(xdisplay, &major, &minor) == BadRequest) {
     DLOG(WARNING) << "XInput2 not supported in the server.";
     xiopcode_ = -1;
     return;
   }

   // TODO(sad): Here, we only setup so that the X windows created by GTK+ are
   // setup for XInput2 events. We need a way to listen for XInput2 events for X
   // windows created by other means (e.g. for context menus).
   SetupGtkWidgetRealizeNotifier(this);

   // Instead of asking X for the list of devices all the time, let's maintain a
   // list of pointer devices we care about.
   // It is not necessary to select for slave devices. XInput2 provides enough
   // information to the event callback to decide which slave device triggered
   // the event, thus decide whether the 'pointer event' is a 'mouse event' or a
   // 'touch event'.
   // If the touch device has 'GrabDevice' set and 'SendCoreEvents' unset (which
   // is possible), then the device is detected as a floating device, and a
   // floating device is not connected to a master device. So it is necessary to
   // also select on the floating devices.
   int count = 0;
   XIDeviceInfo* devices = XIQueryDevice(xdisplay, XIAllDevices, &count);
   for (int i = 0; i < count; i++) {
     XIDeviceInfo* devinfo = devices + i;
     if (devinfo->use == XIFloatingSlave || devinfo->use == XIMasterPointer)
       pointer_devices_.insert(devinfo->deviceid);
   }
   XIFreeDeviceInfo(devices);

   // TODO(sad): Select on root for XI_HierarchyChanged so that floats_ and
   // masters_ can be kept up-to-date. This is a relatively rare event, so we can
   // put it off for a later time.
   // Note: It is not necessary to listen for XI_DeviceChanged events.
 }
 #endif  // HAVE_XINPUT2

 }  // namespace base
	// Copyright (c) 2011 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/message_pump_glib_x.h"

	#include <gdk/gdkx.h>
	#if defined(HAVE_XINPUT2)
	#include <X11/extensions/XInput2.h>
	#else
	#include <X11/Xlib.h>
	#endif

	#include "base/message_pump_glib_x_dispatch.h"

	namespace {

	gboolean PlaceholderDispatch(GSource* source,
	GSourceFunc cb,
	gpointer data) {
	return TRUE;
	}

	#if defined(HAVE_XINPUT2)

	// Setup XInput2 select for the GtkWidget.
	gboolean GtkWidgetRealizeCallback(GSignalInvocationHint* hint, guint nparams,
	const GValue* pvalues, gpointer data) {
	GtkWidget* widget = GTK_WIDGET(g_value_get_object(pvalues));
	GdkWindow* window = widget->window;
	base::MessagePumpGlibX* msgpump = static_cast<base::MessagePumpGlibX*>(data);

	DCHECK(window); // TODO(sad): Remove once determined if necessary.

	if (GDK_WINDOW_TYPE(window) != GDK_WINDOW_TOPLEVEL &&
	GDK_WINDOW_TYPE(window) != GDK_WINDOW_CHILD &&
	GDK_WINDOW_TYPE(window) != GDK_WINDOW_DIALOG)
	return true;

	// TODO(sad): Do we need to set a flag on \|window\| to make sure we don't
	// select for the same GdkWindow multiple times? Does it matter?
	msgpump->SetupXInput2ForXWindow(GDK_WINDOW_XID(window));

	return true;
	}

	// We need to capture all the GDK windows that get created, and start
	// listening for XInput2 events. So we setup a callback to the 'realize'
	// signal for GTK+ widgets, so that whenever the signal triggers for any
	// GtkWidget, which means the GtkWidget should now have a GdkWindow, we can
	// setup XInput2 events for the GdkWindow.
	static guint realize_signal_id = 0;
	static guint realize_hook_id = 0;

	void SetupGtkWidgetRealizeNotifier(base::MessagePumpGlibX* msgpump) {
	gpointer klass = g_type_class_ref(GTK_TYPE_WIDGET);

	g_signal_parse_name("realize", GTK_TYPE_WIDGET,
	&realize_signal_id, NULL, FALSE);
	realize_hook_id = g_signal_add_emission_hook(realize_signal_id, 0,
	GtkWidgetRealizeCallback, static_cast<gpointer>(msgpump), NULL);

	g_type_class_unref(klass);
	}

	void RemoveGtkWidgetRealizeNotifier() {
	if (realize_signal_id != 0)
	g_signal_remove_emission_hook(realize_signal_id, realize_hook_id);
	realize_signal_id = 0;
	realize_hook_id = 0;
	}

	#endif // HAVE_XINPUT2

	} // namespace

	namespace base {

	MessagePumpGlibX::MessagePumpGlibX() : base::MessagePumpForUI(),
	#if defined(HAVE_XINPUT2)
	xiopcode_(-1),
	pointer_devices_(),
	#endif
	gdksource_(NULL),
	dispatching_event_(false),
	capture_x_events_(0),
	capture_gdk_events_(0) {
	gdk_event_handler_set(&EventDispatcherX, this, NULL);

	#if defined(HAVE_XINPUT2)
	InitializeXInput2();
	#endif
	InitializeEventsToCapture();
	}

	MessagePumpGlibX::~MessagePumpGlibX() {
	#if defined(HAVE_XINPUT2)
	RemoveGtkWidgetRealizeNotifier();
	#endif
	}

	#if defined(HAVE_XINPUT2)
	void MessagePumpGlibX::SetupXInput2ForXWindow(Window xwindow) {
	Display* xdisplay = GDK_DISPLAY_XDISPLAY(gdk_display_get_default());

	// Setup mask for mouse events.
	unsigned char mask[(XI_LASTEVENT + 7)/8];
	memset(mask, 0, sizeof(mask));

	XISetMask(mask, XI_ButtonPress);
	XISetMask(mask, XI_ButtonRelease);
	XISetMask(mask, XI_Motion);

	XIEventMask evmasks[pointer_devices_.size()];
	int count = 0;
	for (std::set<int>::const_iterator iter = pointer_devices_.begin();
	iter != pointer_devices_.end();
	++iter, ++count) {
	evmasks[count].deviceid = *iter;
	evmasks[count].mask_len = sizeof(mask);
	evmasks[count].mask = mask;
	}

	XISelectEvents(xdisplay, xwindow, evmasks, pointer_devices_.size());

	// TODO(sad): Setup masks for keyboard events.

	XFlush(xdisplay);
	}
	#endif // HAVE_XINPUT2

	bool MessagePumpGlibX::RunOnce(GMainContext* context, bool block) {
	GdkDisplay* gdisp = gdk_display_get_default();
	if (!gdisp \|\| !GetDispatcher())
	return MessagePumpForUI::RunOnce(context, block);

	Display* display = GDK_DISPLAY_XDISPLAY(gdisp);
	bool should_quit = false;

	if (XPending(display)) {
	XEvent xev;
	XPeekEvent(display, &xev);
	if (capture_x_events_[xev.type]
	#if defined(HAVE_XINPUT2)
	&& (xev.type != GenericEvent \|\| xev.xcookie.extension == xiopcode_)
	#endif
	) {
	XNextEvent(display, &xev);

	#if defined(HAVE_XINPUT2)
	bool have_cookie = false;
	if (xev.type == GenericEvent &&
	XGetEventData(xev.xgeneric.display, &xev.xcookie)) {
	have_cookie = true;
	}
	#endif

	MessagePumpGlibXDispatcher::DispatchStatus status =
	static_cast<MessagePumpGlibXDispatcher*>
	(GetDispatcher())->DispatchX(&xev);

	if (status == MessagePumpGlibXDispatcher::EVENT_QUIT) {
	should_quit = true;
	Quit();
	} else if (status == MessagePumpGlibXDispatcher::EVENT_IGNORED) {
	DLOG(WARNING) << "Event (" << xev.type << ") not handled.";

	// TODO(sad): It is necessary to put back the event so that the default
	// GDK events handler can take care of it. Without this, it is
	// impossible to use the omnibox at the moment. However, this will
	// eventually be removed once the omnibox code is updated for touchui.
	XPutBackEvent(display, &xev);
	if (gdksource_)
	gdksource_->source_funcs->dispatch = gdkdispatcher_;
	g_main_context_iteration(context, FALSE);
	}

	#if defined(HAVE_XINPUT2)
	if (have_cookie) {
	XFreeEventData(xev.xgeneric.display, &xev.xcookie);
	}
	#endif
	} else {
	// TODO(sad): A couple of extra events can still sneak in during this.
	// Those should be sent back to the X queue from the dispatcher
	// EventDispatcherX.
	if (gdksource_)
	gdksource_->source_funcs->dispatch = gdkdispatcher_;
	g_main_context_iteration(context, FALSE);
	}
	}

	if (should_quit)
	return true;

	bool retvalue;
	if (gdksource_) {
	// Replace the dispatch callback of the GDK event source temporarily so that
	// it doesn't read events from X.
	gboolean (cb)(GSource, GSourceFunc, void*) =
	gdksource_->source_funcs->dispatch;
	gdksource_->source_funcs->dispatch = PlaceholderDispatch;

	dispatching_event_ = true;
	retvalue = g_main_context_iteration(context, block);
	dispatching_event_ = false;

	gdksource_->source_funcs->dispatch = cb;
	} else {
	retvalue = g_main_context_iteration(context, block);
	}

	return retvalue;
	}

	void MessagePumpGlibX::EventDispatcherX(GdkEvent* event, gpointer data) {
	MessagePumpGlibX* pump_x = reinterpret_cast<MessagePumpGlibX*>(data);

	if (!pump_x->gdksource_) {
	pump_x->gdksource_ = g_main_current_source();
	if (pump_x->gdksource_)
	pump_x->gdkdispatcher_ = pump_x->gdksource_->source_funcs->dispatch;
	} else if (!pump_x->IsDispatchingEvent()) {
	if (event->type != GDK_NOTHING &&
	pump_x->capture_gdk_events_[event->type]) {
	// TODO(sad): An X event is caught by the GDK handler. Put it back in the
	// X queue so that we catch it in the next iteration. When done, the
	// following DLOG statement will be removed.
	DLOG(WARNING) << "GDK received an event it shouldn't have";
	}
	}

	pump_x->DispatchEvents(event);
	}

	void MessagePumpGlibX::InitializeEventsToCapture(void) {
	// TODO(sad): Decide which events we want to capture and update the tables
	// accordingly.
	capture_x_events_[KeyPress] = true;
	capture_gdk_events_[GDK_KEY_PRESS] = true;

	capture_x_events_[KeyRelease] = true;
	capture_gdk_events_[GDK_KEY_RELEASE] = true;

	capture_x_events_[ButtonPress] = true;
	capture_gdk_events_[GDK_BUTTON_PRESS] = true;

	capture_x_events_[ButtonRelease] = true;
	capture_gdk_events_[GDK_BUTTON_RELEASE] = true;

	capture_x_events_[MotionNotify] = true;
	capture_gdk_events_[GDK_MOTION_NOTIFY] = true;

	#if defined(HAVE_XINPUT2)
	capture_x_events_[GenericEvent] = true;
	#endif
	}

	#if defined(HAVE_XINPUT2)
	void MessagePumpGlibX::InitializeXInput2(void) {
	GdkDisplay* display = gdk_display_get_default();
	if (!display)
	return;

	Display* xdisplay = GDK_DISPLAY_XDISPLAY(display);
	int event, err;

	if (!XQueryExtension(xdisplay, "XInputExtension", &xiopcode_, &event, &err)) {
	DLOG(WARNING) << "X Input extension not available.";
	xiopcode_ = -1;
	return;
	}

	int major = 2, minor = 0;
	if (XIQueryVersion(xdisplay, &major, &minor) == BadRequest) {
	DLOG(WARNING) << "XInput2 not supported in the server.";
	xiopcode_ = -1;
	return;
	}

	// TODO(sad): Here, we only setup so that the X windows created by GTK+ are
	// setup for XInput2 events. We need a way to listen for XInput2 events for X
	// windows created by other means (e.g. for context menus).
	SetupGtkWidgetRealizeNotifier(this);

	// Instead of asking X for the list of devices all the time, let's maintain a
	// list of pointer devices we care about.
	// It is not necessary to select for slave devices. XInput2 provides enough
	// information to the event callback to decide which slave device triggered
	// the event, thus decide whether the 'pointer event' is a 'mouse event' or a
	// 'touch event'.
	// If the touch device has 'GrabDevice' set and 'SendCoreEvents' unset (which
	// is possible), then the device is detected as a floating device, and a
	// floating device is not connected to a master device. So it is necessary to
	// also select on the floating devices.
	int count = 0;
	XIDeviceInfo* devices = XIQueryDevice(xdisplay, XIAllDevices, &count);
	for (int i = 0; i < count; i++) {
	XIDeviceInfo* devinfo = devices + i;
	if (devinfo->use == XIFloatingSlave \|\| devinfo->use == XIMasterPointer)
	pointer_devices_.insert(devinfo->deviceid);
	}
	XIFreeDeviceInfo(devices);

	// TODO(sad): Select on root for XI_HierarchyChanged so that floats_ and
	// masters_ can be kept up-to-date. This is a relatively rare event, so we can
	// put it off for a later time.
	// Note: It is not necessary to listen for XI_DeviceChanged events.
	}
	#endif // HAVE_XINPUT2

	} // namespace base