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|
/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 8 -*-
*
* Copyright (C) 2004-2006 William Jon McCann <mccann@jhu.edu>
*
* 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 2 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, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Authors: William Jon McCann <mccann@jhu.edu>
*
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <glib.h>
#include <glib-object.h>
#include "mate-screensaver.h"
#include "gs-manager.h"
#include "gs-watcher.h"
#include "gs-fade.h"
#include "gs-grab.h"
#include "gs-listener-dbus.h"
#include "gs-monitor.h"
#include "gs-prefs.h"
#include "gs-debug.h"
static void gs_monitor_class_init(GSMonitorClass* klass);
static void gs_monitor_init(GSMonitor* monitor);
static void gs_monitor_finalize(GObject* object);
#define GS_MONITOR_GET_PRIVATE(o) \
(G_TYPE_INSTANCE_GET_PRIVATE((o), GS_TYPE_MONITOR, GSMonitorPrivate))
struct GSMonitorPrivate {
GSWatcher* watcher;
GSListener* listener;
GSManager* manager;
GSPrefs* prefs;
GSFade* fade;
GSGrab* grab;
guint release_grab_id;
};
#define FADE_TIMEOUT 10000
G_DEFINE_TYPE(GSMonitor, gs_monitor, G_TYPE_OBJECT)
static void gs_monitor_class_init(GSMonitorClass* klass)
{
GObjectClass* object_class = G_OBJECT_CLASS(klass);
object_class->finalize = gs_monitor_finalize;
g_type_class_add_private(klass, sizeof(GSMonitorPrivate));
}
static void manager_activated_cb(GSManager* manager, GSMonitor* monitor)
{
/* Nothing */
}
static void manager_deactivated_cb(GSManager* manager, GSMonitor* monitor)
{
gs_listener_set_active (monitor->priv->listener, FALSE);
}
static gboolean watcher_idle_cb(GSWatcher* watcher, gboolean is_idle, GSMonitor* monitor)
{
gboolean res;
gs_debug ("Idle signal detected: %d", is_idle);
res = gs_listener_set_session_idle(monitor->priv->listener, is_idle);
return res;
}
static gboolean release_grab_timeout(GSMonitor* monitor)
{
gboolean manager_active;
manager_active = gs_manager_get_active(monitor->priv->manager);
if (! manager_active)
{
gs_grab_release(monitor->priv->grab);
}
monitor->priv->release_grab_id = 0;
return FALSE;
}
static gboolean watcher_idle_notice_cb(GSWatcher* watcher, gboolean in_effect, GSMonitor* monitor)
{
gboolean activation_enabled;
gboolean inhibited;
gboolean handled;
gs_debug("Idle notice signal detected: %d", in_effect);
/* only fade if screensaver can activate */
activation_enabled = gs_listener_get_activation_enabled(monitor->priv->listener);
inhibited = gs_listener_is_inhibited(monitor->priv->listener);
handled = FALSE;
if (in_effect)
{
if (activation_enabled && ! inhibited)
{
/* start slow fade */
if (gs_grab_grab_offscreen(monitor->priv->grab, FALSE))
{
gs_fade_async(monitor->priv->fade, FADE_TIMEOUT, NULL, NULL);
}
else
{
gs_debug("Could not grab the keyboard so not performing idle warning fade-out");
}
handled = TRUE;
}
}
else
{
gboolean manager_active;
manager_active = gs_manager_get_active(monitor->priv->manager);
/* cancel the fade unless manager was activated */
if (! manager_active)
{
gs_debug("manager not active, performing fade cancellation");
gs_fade_reset(monitor->priv->fade);
/* don't release the grab immediately to prevent typing passwords into windows */
if (monitor->priv->release_grab_id != 0)
{
g_source_remove(monitor->priv->release_grab_id);
}
monitor->priv->release_grab_id = g_timeout_add(1000, (GSourceFunc) release_grab_timeout, monitor);
}
else
{
gs_debug("manager active, skipping fade cancellation");
}
handled = TRUE;
}
return handled;
}
static void gs_monitor_lock_screen(GSMonitor* monitor)
{
gboolean res;
gboolean locked;
/* set lock flag before trying to activate screensaver
in case something tries to react to the ActiveChanged signal */
gs_manager_get_lock_active(monitor->priv->manager, &locked);
gs_manager_set_lock_active(monitor->priv->manager, TRUE);
res = gs_listener_set_active(monitor->priv->listener, TRUE);
if (! res)
{
/* If we've failed then restore lock status */
gs_manager_set_lock_active(monitor->priv->manager, locked);
gs_debug("Unable to lock the screen");
}
}
static void gs_monitor_simulate_user_activity(GSMonitor* monitor)
{
/* FIXME: reset the xsync timer? */
/* request that the manager unlock -
will pop up a dialog if necessary */
gs_manager_request_unlock(monitor->priv->manager);
}
static void listener_lock_cb(GSListener* listener, GSMonitor* monitor)
{
if (!monitor->priv->prefs->lock_disabled)
{
gs_monitor_lock_screen(monitor);
}
else
{
gs_debug("Locking disabled by the administrator");
}
}
static void listener_quit_cb(GSListener* listener, GSMonitor* monitor)
{
gs_listener_set_active(monitor->priv->listener, FALSE);
mate_screensaver_quit();
}
static void listener_cycle_cb(GSListener* listener, GSMonitor* monitor)
{
gs_manager_cycle(monitor->priv->manager);
}
static void listener_show_message_cb(GSListener* listener, const char* summary, const char* body, const char* icon, GSMonitor* monitor)
{
gs_manager_show_message(monitor->priv->manager, summary, body, icon);
}
static gboolean listener_active_changed_cb(GSListener* listener, gboolean active, GSMonitor* monitor)
{
gboolean res;
gboolean ret;
gboolean idle_watch_enabled;
res = gs_manager_set_active(monitor->priv->manager, active);
if (! res)
{
gs_debug("Unable to set manager active: %d", active);
ret = FALSE;
goto done;
}
ret = TRUE;
done:
idle_watch_enabled = gs_watcher_get_enabled(monitor->priv->watcher);
if (ret && idle_watch_enabled)
{
res = gs_watcher_set_active(monitor->priv->watcher, !active);
if (!res)
{
gs_debug("Unable to set the idle watcher active: %d", !active);
}
}
return ret;
}
static void listener_throttle_changed_cb(GSListener* listener, gboolean throttled, GSMonitor* monitor)
{
gs_manager_set_throttled(monitor->priv->manager, throttled);
}
static void listener_simulate_user_activity_cb(GSListener* listener, GSMonitor* monitor)
{
gs_monitor_simulate_user_activity(monitor);
}
static void _gs_monitor_update_from_prefs(GSMonitor* monitor, GSPrefs* prefs)
{
gboolean idle_detection_enabled;
gboolean idle_detection_active;
gboolean activate_watch;
gboolean manager_active;
gboolean lock_enabled;
gboolean user_switch_enabled;
lock_enabled = (monitor->priv->prefs->lock_enabled && !monitor->priv->prefs->lock_disabled);
user_switch_enabled = (monitor->priv->prefs->user_switch_enabled && !monitor->priv->prefs->user_switch_disabled);
gs_manager_set_lock_enabled(monitor->priv->manager, lock_enabled);
gs_manager_set_lock_timeout(monitor->priv->manager, monitor->priv->prefs->lock_timeout);
gs_manager_set_logout_enabled(monitor->priv->manager, monitor->priv->prefs->logout_enabled);
gs_manager_set_user_switch_enabled(monitor->priv->manager, user_switch_enabled);
gs_manager_set_keyboard_enabled(monitor->priv->manager, monitor->priv->prefs->keyboard_enabled);
gs_manager_set_logout_timeout(monitor->priv->manager, monitor->priv->prefs->logout_timeout);
gs_manager_set_logout_command(monitor->priv->manager, monitor->priv->prefs->logout_command);
gs_manager_set_keyboard_command(monitor->priv->manager, monitor->priv->prefs->keyboard_command);
gs_manager_set_cycle_timeout(monitor->priv->manager, monitor->priv->prefs->cycle);
gs_manager_set_mode(monitor->priv->manager, monitor->priv->prefs->mode);
gs_manager_set_themes(monitor->priv->manager, monitor->priv->prefs->themes);
/* enable activation when allowed */
gs_listener_set_activation_enabled(monitor->priv->listener, monitor->priv->prefs->idle_activation_enabled);
/* idle detection always enabled */
idle_detection_enabled = TRUE;
gs_watcher_set_enabled(monitor->priv->watcher, idle_detection_enabled);
/* in the case where idle detection is reenabled we may need to
activate the watcher too */
manager_active = gs_manager_get_active(monitor->priv->manager);
idle_detection_active = gs_watcher_get_active(monitor->priv->watcher);
activate_watch = (! manager_active && ! idle_detection_active && idle_detection_enabled);
if (activate_watch)
{
gs_watcher_set_active(monitor->priv->watcher, TRUE);
}
if (monitor->priv->prefs->status_message_enabled)
{
char* text;
g_object_get(monitor->priv->watcher, "status-message", &text, NULL);
gs_manager_set_status_message(monitor->priv->manager, text);
g_free(text);
}
else
{
gs_manager_set_status_message(monitor->priv->manager, NULL);
}
}
static void disconnect_listener_signals(GSMonitor* monitor)
{
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_lock_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_quit_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_cycle_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_active_changed_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_throttle_changed_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_simulate_user_activity_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->listener, listener_show_message_cb, monitor);
}
static void connect_listener_signals(GSMonitor* monitor)
{
g_signal_connect(monitor->priv->listener, "lock", G_CALLBACK(listener_lock_cb), monitor);
g_signal_connect(monitor->priv->listener, "quit", G_CALLBACK(listener_quit_cb), monitor);
g_signal_connect(monitor->priv->listener, "cycle", G_CALLBACK(listener_cycle_cb), monitor);
g_signal_connect(monitor->priv->listener, "active-changed", G_CALLBACK(listener_active_changed_cb), monitor);
g_signal_connect(monitor->priv->listener, "throttle-changed", G_CALLBACK(listener_throttle_changed_cb), monitor);
g_signal_connect(monitor->priv->listener, "simulate-user-activity", G_CALLBACK(listener_simulate_user_activity_cb), monitor);
g_signal_connect(monitor->priv->listener, "show-message", G_CALLBACK(listener_show_message_cb), monitor);
}
static void on_watcher_status_message_changed(GSWatcher* watcher, GParamSpec* pspec, GSMonitor* monitor)
{
char* text;
g_object_get(watcher, "status-message", &text, NULL);
gs_manager_set_status_message(monitor->priv->manager, text);
g_free(text);
}
static void disconnect_watcher_signals(GSMonitor *monitor)
{
g_signal_handlers_disconnect_by_func(monitor->priv->watcher, watcher_idle_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->watcher, watcher_idle_notice_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->watcher, on_watcher_status_message_changed, monitor);
}
static void connect_watcher_signals(GSMonitor *monitor)
{
g_signal_connect(monitor->priv->watcher, "idle-changed", G_CALLBACK(watcher_idle_cb), monitor);
g_signal_connect(monitor->priv->watcher, "idle-notice-changed", G_CALLBACK(watcher_idle_notice_cb), monitor);
g_signal_connect(monitor->priv->watcher, "notify::status-message", G_CALLBACK(on_watcher_status_message_changed), monitor);
}
static void disconnect_manager_signals(GSMonitor* monitor)
{
g_signal_handlers_disconnect_by_func(monitor->priv->manager, manager_activated_cb, monitor);
g_signal_handlers_disconnect_by_func(monitor->priv->manager, manager_deactivated_cb, monitor);
}
static void connect_manager_signals(GSMonitor* monitor)
{
g_signal_connect(monitor->priv->manager, "activated", G_CALLBACK(manager_activated_cb), monitor);
g_signal_connect(monitor->priv->manager, "deactivated", G_CALLBACK(manager_deactivated_cb), monitor);
}
static void disconnect_prefs_signals(GSMonitor* monitor)
{
g_signal_handlers_disconnect_by_func(monitor->priv->prefs, _gs_monitor_update_from_prefs, monitor);
}
static void connect_prefs_signals(GSMonitor* monitor)
{
g_signal_connect_swapped(monitor->priv->prefs, "changed", G_CALLBACK(_gs_monitor_update_from_prefs), monitor);
}
static void gs_monitor_init(GSMonitor* monitor)
{
monitor->priv = GS_MONITOR_GET_PRIVATE(monitor);
monitor->priv->prefs = gs_prefs_new();
connect_prefs_signals(monitor);
monitor->priv->listener = gs_listener_new();
connect_listener_signals(monitor);
monitor->priv->fade = gs_fade_new();
monitor->priv->grab = gs_grab_new();
monitor->priv->watcher = gs_watcher_new();
connect_watcher_signals(monitor);
monitor->priv->manager = gs_manager_new();
connect_manager_signals(monitor);
_gs_monitor_update_from_prefs(monitor, monitor->priv->prefs);
}
static void gs_monitor_finalize(GObject* object)
{
GSMonitor* monitor;
g_return_if_fail(object != NULL);
g_return_if_fail(GS_IS_MONITOR(object));
monitor = GS_MONITOR(object);
g_return_if_fail(monitor->priv != NULL);
disconnect_watcher_signals(monitor);
disconnect_listener_signals(monitor);
disconnect_manager_signals(monitor);
disconnect_prefs_signals(monitor);
g_object_unref(monitor->priv->fade);
g_object_unref(monitor->priv->grab);
g_object_unref(monitor->priv->watcher);
g_object_unref(monitor->priv->listener);
g_object_unref(monitor->priv->manager);
g_object_unref(monitor->priv->prefs);
G_OBJECT_CLASS(gs_monitor_parent_class)->finalize(object);
}
GSMonitor* gs_monitor_new(void)
{
GSMonitor* monitor;
monitor = g_object_new(GS_TYPE_MONITOR, NULL);
return GS_MONITOR(monitor);
}
gboolean gs_monitor_start(GSMonitor* monitor, GError** error)
{
g_return_val_if_fail(GS_IS_MONITOR(monitor), FALSE);
if (!gs_listener_acquire(monitor->priv->listener, error))
{
return FALSE;
}
return TRUE;
}
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