/* timers.c --- detecting when the user is idle, and other timer-related tasks.
* xscreensaver, Copyright (c) 1991-1997, 1998
- * Jamie Zawinski <jwz@netscape.com>
+ * Jamie Zawinski <jwz@jwz.org>
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
#include <X11/extensions/XScreenSaver.h>
#endif /* HAVE_SGI_SAVER_EXTENSION */
-#ifdef HAVE_XHPDISABLERESET
-# include <X11/XHPlib.h>
- extern Bool hp_locked_p; /* from windows.c */
-#endif /* HAVE_XHPDISABLERESET */
-
#include "xscreensaver.h"
+#ifdef HAVE_PROC_INTERRUPTS
+static Bool proc_interrupts_activity_p (saver_info *si);
+#endif /* HAVE_PROC_INTERRUPTS */
+
+static void check_for_clock_skew (saver_info *si);
+
void
idle_timer (XtPointer closure, XtIntervalId *id)
}
+static void
+schedule_wakeup_event (saver_info *si, Time when, Bool verbose_p)
+{
+ /* Wake up periodically to ask the server if we are idle. */
+ si->timer_id = XtAppAddTimeOut (si->app, when, idle_timer,
+ (XtPointer) si);
+
+#ifdef DEBUG_TIMERS
+ if (verbose_p)
+ fprintf (stderr, "%s: starting idle_timer (%ld, %ld)\n",
+ blurb(), when, si->timer_id);
+#endif /* DEBUG_TIMERS */
+}
+
+
static void
notice_events (saver_info *si, Window window, Bool top_p)
{
/* Select for SubstructureNotify on all windows.
Select for KeyPress on all windows that already have it selected.
- Do we need to select for ButtonRelease? I don't think so.
+
+ Note that we can't select for ButtonPress, because of X braindamage:
+ only one client at a time may select for ButtonPress on a given
+ window, though any number can select for KeyPress. Someone explain
+ *that* to me.
+
+ So, if the user spends a while clicking the mouse without ever moving
+ the mouse or touching the keyboard, we won't know that they've been
+ active, and the screensaver will come on. That sucks, but I don't
+ know how to get around it.
*/
XSelectInput (si->dpy, window, SubstructureNotifyMask | events);
if (top_p && p->verbose_p && (events & KeyPressMask))
{
/* Only mention one window per tree (hack hack). */
- printf ("%s: selected KeyPress on 0x%lX\n", progname,
- (unsigned long) window);
+ fprintf (stderr, "%s: selected KeyPress on 0x%lX\n", blurb(),
+ (unsigned long) window);
top_p = False;
}
}
void
-start_notice_events_timer (saver_info *si, Window w)
+start_notice_events_timer (saver_info *si, Window w, Bool verbose_p)
{
saver_preferences *p = &si->prefs;
struct notice_events_timer_arg *arg =
arg->w = w;
XtAppAddTimeOut (si->app, p->notice_events_timeout, notice_events_timer,
(XtPointer) arg);
+
+ if (verbose_p)
+ fprintf (stderr, "%s: starting notice_events_timer for 0x%X (%lu)\n",
+ blurb(), (unsigned int) w, p->notice_events_timeout);
}
saver_info *si = (saver_info *) closure;
saver_preferences *p = &si->prefs;
Time how_long = p->cycle;
- if (si->dbox_up_p || si->question_up_p)
+
+ if (si->selection_mode > 0 &&
+ screenhack_running_p (si))
+ /* If we're in "SELECT n" mode, the cycle timer going off will just
+ restart this same hack again. There's not much point in doing this
+ every 5 or 10 minutes, but on the other hand, leaving one hack running
+ for days is probably not a great idea, since they tend to leak and/or
+ crash. So, restart the thing once an hour. */
+ how_long = 1000 * 60 * 60;
+
+ if (si->dbox_up_p)
{
if (p->verbose_p)
- printf ("%s: dialog box up; delaying hack change.\n", progname);
+ fprintf (stderr, "%s: dialog box up; delaying hack change.\n",
+ blurb());
how_long = 30000; /* 30 secs */
}
else
{
+ maybe_reload_init_file (si);
if (p->verbose_p)
- printf ("%s: changing graphics hacks.\n", progname);
+ fprintf (stderr, "%s: changing graphics hacks.\n", blurb());
kill_screenhack (si);
- spawn_screenhack (si, False);
+
+ if (!si->throttled_p)
+ spawn_screenhack (si, False);
+ else
+ {
+ raise_window (si, True, True, False);
+ if (p->verbose_p)
+ fprintf (stderr, "%s: not launching new hack (throttled.)\n",
+ blurb());
+ }
}
+
si->cycle_id = XtAppAddTimeOut (si->app, how_long, cycle_timer,
(XtPointer) si);
#ifdef DEBUG_TIMERS
if (p->verbose_p)
- printf ("%s: starting cycle_timer (%ld, %ld)\n",
- progname, how_long, si->cycle_id);
+ fprintf (stderr, "%s: starting cycle_timer (%ld, %ld)\n",
+ blurb(), how_long, si->cycle_id);
#endif /* DEBUG_TIMERS */
}
saver_preferences *p = &si->prefs;
if (p->verbose_p)
- printf ("%s: timed out; activating lock\n", progname);
- si->locked_p = True;
-
-#ifdef HAVE_XHPDISABLERESET
- if (!hp_locked_p)
- {
- XHPDisableReset (si->dpy); /* turn off C-Sh-Reset */
- hp_locked_p = True;
- }
-#endif
+ fprintf (stderr, "%s: timed out; activating lock.\n", blurb());
+ set_locked_p (si, True);
}
reset_timers (saver_info *si)
{
saver_preferences *p = &si->prefs;
- if (p->use_mit_saver_extension || p->use_sgi_saver_extension)
+ if (si->using_mit_saver_extension || si->using_sgi_saver_extension)
return;
+ if (si->timer_id)
+ {
#ifdef DEBUG_TIMERS
- if (p->verbose_p)
- printf ("%s: killing idle_timer (%ld, %ld)\n",
- progname, p->timeout, si->timer_id);
+ if (p->verbose_p)
+ fprintf (stderr, "%s: killing idle_timer (%ld, %ld)\n",
+ blurb(), p->timeout, si->timer_id);
#endif /* DEBUG_TIMERS */
+ XtRemoveTimeOut (si->timer_id);
+ }
- XtRemoveTimeOut (si->timer_id);
- si->timer_id = XtAppAddTimeOut (si->app, p->timeout, idle_timer,
- (XtPointer) si);
- if (si->cycle_id) abort ();
+ schedule_wakeup_event (si, p->timeout, p->verbose_p); /* sets si->timer_id */
-#ifdef DEBUG_TIMERS
- if (p->verbose_p)
- printf ("%s: restarting idle_timer (%ld, %ld)\n",
- progname, p->timeout, si->timer_id);
-#endif /* DEBUG_TIMERS */
+ if (si->cycle_id) abort (); /* no cycle timer when inactive */
si->last_activity_time = time ((time_t *) 0);
}
+
/* When we aren't using a server extension, this timer is used to periodically
wake up and poll the mouse position, which is possibly more reliable than
selecting motion events on every window.
saver_preferences *p = &si->prefs;
Bool active_p = False;
- if (p->use_xidle_extension ||
- p->use_mit_saver_extension ||
- p->use_sgi_saver_extension)
+ if (!si->using_proc_interrupts &&
+ (si->using_xidle_extension ||
+ si->using_mit_saver_extension ||
+ si->using_sgi_saver_extension))
+ /* If an extension is in use, we should not be polling the mouse.
+ Unless we're also checking /proc/interrupts, in which case, we should.
+ */
abort ();
si->check_pointer_timer_id =
if (root_x == ssi->poll_mouse_last_root_x &&
root_y == ssi->poll_mouse_last_root_y &&
child == ssi->poll_mouse_last_child)
- printf ("%s: modifiers changed at %s on screen %d.\n",
- progname, timestring(), i);
+ fprintf (stderr, "%s: modifiers changed at %s on screen %d.\n",
+ blurb(), timestring(), i);
else
- printf ("%s: pointer moved at %s on screen %d.\n",
- progname, timestring(), i);
+ fprintf (stderr, "%s: pointer moved at %s on screen %d.\n",
+ blurb(), timestring(), i);
#endif /* DEBUG_TIMERS */
si->last_activity_screen = ssi;
ssi->poll_mouse_last_mask = mask;
}
+#ifdef HAVE_PROC_INTERRUPTS
+ if (!active_p &&
+ si->using_proc_interrupts &&
+ proc_interrupts_activity_p (si))
+ {
+# ifdef DEBUG_TIMERS
+ if (p->verbose_p)
+ fprintf (stderr, "%s: /proc/interrupts activity at %s.\n",
+ blurb(), timestring());
+# endif /* DEBUG_TIMERS */
+ active_p = True;
+ }
+#endif /* HAVE_PROC_INTERRUPTS */
+
+
if (active_p)
reset_timers (si);
+
+ check_for_clock_skew (si);
}
+/* An unfortunate situation is this: the saver is not active, because the
+ user has been typing. The machine is a laptop. The user closes the lid
+ and suspends it. The CPU halts. Some hours later, the user opens the
+ lid. At this point, Xt's timers will fire, and xscreensaver will blank
+ the screen.
+
+ So far so good -- well, not really, but it's the best that we can do,
+ since the OS doesn't send us a signal *before* shutdown -- but if the
+ user had delayed locking (lockTimeout > 0) then we should start off
+ in the locked state, rather than only locking N minutes from when the
+ lid was opened. Also, eschewing fading is probably a good idea, to
+ clamp down as soon as possible.
+
+ We only do this when we'd be polling the mouse position anyway.
+ This amounts to an assumption that machines with APM support also
+ have /proc/interrupts.
+ */
+static void
+check_for_clock_skew (saver_info *si)
+{
+ saver_preferences *p = &si->prefs;
+ time_t now = time ((time_t *) 0);
+ long shift = now - si->last_wall_clock_time;
+
+#ifdef DEBUG_TIMERS
+ if (p->verbose_p)
+ fprintf (stderr, "%s: checking wall clock (%d).\n", blurb(),
+ (si->last_wall_clock_time == 0 ? 0 : shift));
+#endif /* DEBUG_TIMERS */
+
+ if (si->last_wall_clock_time != 0 &&
+ shift > (p->timeout / 1000))
+ {
+ if (p->verbose_p)
+ fprintf (stderr, "%s: wall clock has jumped by %d:%02d:%02d!\n",
+ blurb(),
+ (shift / (60 * 60)), ((shift / 60) % 60), (shift % 60));
+
+ si->emergency_lock_p = True;
+ idle_timer ((XtPointer) si, 0);
+ }
+
+ si->last_wall_clock_time = now;
+}
+
+
+
+static void
+dispatch_event (saver_info *si, XEvent *event)
+{
+ /* If this is for the splash dialog, pass it along.
+ Note that the password dialog is handled with its own event loop,
+ so events for that window will never come through here.
+ */
+ if (si->splash_dialog && event->xany.window == si->splash_dialog)
+ handle_splash_event (si, event);
+
+ XtDispatchEvent (event);
+}
+
+
+static void
+swallow_unlock_typeahead_events (saver_info *si, XEvent *e)
+{
+ XEvent event;
+ char buf [100];
+ int i = 0;
+
+ memset (buf, 0, sizeof(buf));
+
+ event = *e;
+
+ do
+ {
+ if (event.xany.type == KeyPress)
+ {
+ char s[2];
+ int size = XLookupString (&event, s, 1, 0, 0);
+ if (size != 1) continue;
+ switch (*s)
+ {
+ case '\010': case '\177': /* Backspace */
+ if (i > 0) i--;
+ break;
+ case '\025': case '\030': /* Erase line */
+ case '\012': case '\015': /* Enter */
+ i = 0;
+ break;
+ case '\040': /* Space */
+ if (i == 0)
+ break; /* ignore space at beginning of line */
+ /* else, fall through */
+ default:
+ buf [i++] = *s;
+ break;
+ }
+ }
+
+ } while (i < sizeof(buf)-1 &&
+ XCheckMaskEvent (si->dpy, KeyPressMask, &event));
+
+ buf[i] = 0;
+
+ if (si->unlock_typeahead)
+ {
+ memset (si->unlock_typeahead, 0, strlen(si->unlock_typeahead));
+ free (si->unlock_typeahead);
+ }
+
+ if (i > 0)
+ si->unlock_typeahead = strdup (buf);
+ else
+ si->unlock_typeahead = 0;
+
+ memset (buf, 0, sizeof(buf));
+}
+
+
+/* methods of detecting idleness:
+
+ explicitly informed by SGI SCREEN_SAVER server event;
+ explicitly informed by MIT-SCREEN-SAVER server event;
+ poll server idle time with XIDLE extension;
+ select events on all windows, and note absence of recent events;
+ note that /proc/interrupts has not changed in a while;
+ activated by clientmessage.
+
+ methods of detecting non-idleness:
+
+ read events on the xscreensaver window;
+ explicitly informed by SGI SCREEN_SAVER server event;
+ explicitly informed by MIT-SCREEN-SAVER server event;
+ select events on all windows, and note events on any of them;
+ note that /proc/interrupts has changed;
+ deactivated by clientmessage.
+
+ I trust that explains why this function is a big hairy mess.
+ */
void
sleep_until_idle (saver_info *si, Bool until_idle_p)
{
saver_preferences *p = &si->prefs;
XEvent event;
+ /* We need to select events on all windows if we're not using any extensions.
+ Otherwise, we don't need to. */
+ Bool scanning_all_windows = !(si->using_xidle_extension ||
+ si->using_mit_saver_extension ||
+ si->using_sgi_saver_extension);
+
+ /* We need to periodically wake up and check for idleness if we're not using
+ any extensions, or if we're using the XIDLE extension. The other two
+ extensions explicitly deliver events when we go idle/non-idle, so we
+ don't need to poll. */
+ Bool polling_for_idleness = !(si->using_mit_saver_extension ||
+ si->using_sgi_saver_extension);
+
+ /* Whether we need to periodically wake up and check to see if the mouse has
+ moved. We only need to do this when not using any extensions. The reason
+ this isn't the same as `polling_for_idleness' is that the "idleness" poll
+ can happen (for example) 5 minutes from now, whereas the mouse-position
+ poll should happen with low periodicity. We don't need to poll the mouse
+ position with the XIDLE extension, but we do need to periodically wake up
+ and query the server with that extension. For our purposes, polling
+ /proc/interrupts is just like polling the mouse position. It has to
+ happen on the same kind of schedule. */
+ Bool polling_mouse_position = (si->using_proc_interrupts ||
+ !(si->using_xidle_extension ||
+ si->using_mit_saver_extension ||
+ si->using_sgi_saver_extension));
+
if (until_idle_p)
{
- if (!p->use_mit_saver_extension && !p->use_sgi_saver_extension)
- {
- /* Wake up periodically to ask the server if we are idle. */
- si->timer_id = XtAppAddTimeOut (si->app, p->timeout, idle_timer,
- (XtPointer) si);
-
-#ifdef DEBUG_TIMERS
- if (p->verbose_p)
- printf ("%s: starting idle_timer (%ld, %ld)\n",
- progname, p->timeout, si->timer_id);
-#endif /* DEBUG_TIMERS */
- }
-
- if (!p->use_xidle_extension &&
- !p->use_mit_saver_extension &&
- !p->use_sgi_saver_extension)
- /* start polling the mouse position */
+ if (polling_for_idleness)
+ /* This causes a no-op event to be delivered to us in a while, so that
+ we come back around through the event loop again. Use of this timer
+ is economical: for example, if the screensaver should come on in 5
+ minutes, and the user has been idle for 2 minutes, then this
+ timeout will go off no sooner than 3 minutes from now. */
+ schedule_wakeup_event (si, p->timeout, p->verbose_p);
+
+ if (polling_mouse_position)
+ /* Check to see if the mouse has moved, and set up a repeating timer
+ to do so periodically (typically, every 5 seconds.) */
check_pointer_timer ((XtPointer) si, 0);
}
{
Time idle;
#ifdef HAVE_XIDLE_EXTENSION
- if (p->use_xidle_extension)
+ if (si->using_xidle_extension)
{
+ /* The XIDLE extension uses the synthetic event to prod us into
+ re-asking the server how long the user has been idle. */
if (! XGetIdleTime (si->dpy, &idle))
{
- fprintf (stderr, "%s: XGetIdleTime() failed.\n", progname);
- saver_exit (si, 1);
+ fprintf (stderr, "%s: XGetIdleTime() failed.\n", blurb());
+ saver_exit (si, 1, 0);
}
}
else
#endif /* HAVE_XIDLE_EXTENSION */
#ifdef HAVE_MIT_SAVER_EXTENSION
- if (p->use_mit_saver_extension)
+ if (si->using_mit_saver_extension)
{
/* We don't need to do anything in this case - the synthetic
event isn't necessary, as we get sent specific events
- to wake us up. */
+ to wake us up. In fact, this event generally shouldn't
+ be being delivered when the MIT extension is in use. */
idle = 0;
}
else
#endif /* HAVE_MIT_SAVER_EXTENSION */
#ifdef HAVE_SGI_SAVER_EXTENSION
- if (p->use_sgi_saver_extension)
+ if (si->using_sgi_saver_extension)
{
/* We don't need to do anything in this case - the synthetic
event isn't necessary, as we get sent specific events
- to wake us up. */
+ to wake us up. In fact, this event generally shouldn't
+ be being delivered when the SGI extension is in use. */
idle = 0;
}
else
#endif /* HAVE_SGI_SAVER_EXTENSION */
{
+ /* Otherwise, no server extension is in use. The synthetic
+ event was to tell us to wake up and see if the user is now
+ idle. Compute the amount of idle time by comparing the
+ `last_activity_time' to the wall clock. The l_a_t was set
+ by calling `reset_timers()', which is called only in only
+ two situations: when polling the mouse position has revealed
+ the the mouse has moved (user activity) or when we have read
+ an event (again, user activity.)
+ */
idle = 1000 * (si->last_activity_time - time ((time_t *) 0));
}
-
+
if (idle >= p->timeout)
- goto DONE;
- else if (!p->use_mit_saver_extension &&
- !p->use_sgi_saver_extension)
- {
- si->timer_id = XtAppAddTimeOut (si->app, p->timeout - idle,
- idle_timer, (XtPointer) si);
-#ifdef DEBUG_TIMERS
- if (p->verbose_p)
- printf ("%s: starting idle_timer (%ld, %ld)\n",
- progname, p->timeout - idle, si->timer_id);
-#endif /* DEBUG_TIMERS */
- }
+ {
+ /* Look, we've been idle long enough. We're done. */
+ goto DONE;
+ }
+ else if (si->emergency_lock_p)
+ {
+ /* Oops, the wall clock has jumped far into the future, so
+ we need to lock down in a hurry! */
+ goto DONE;
+ }
+ else
+ {
+ /* The event went off, but it turns out that the user has not
+ yet been idle for long enough. So re-signal the event.
+ */
+ if (polling_for_idleness)
+ schedule_wakeup_event (si, p->timeout - idle, p->verbose_p);
+ }
}
break;
break;
case CreateNotify:
- if (!p->use_xidle_extension &&
- !p->use_mit_saver_extension &&
- !p->use_sgi_saver_extension)
+ /* A window has been created on the screen somewhere. If we're
+ supposed to scan all windows for events, prepare this window. */
+ if (scanning_all_windows)
{
- start_notice_events_timer (si, event.xcreatewindow.window);
+ Window w = event.xcreatewindow.window;
#ifdef DEBUG_TIMERS
- if (p->verbose_p)
- printf ("%s: starting notice_events_timer for 0x%X (%lu)\n",
- progname,
- (unsigned int) event.xcreatewindow.window,
- p->notice_events_timeout);
-#endif /* DEBUG_TIMERS */
+ start_notice_events_timer (si, w, p->verbose_p);
+#else /* !DEBUG_TIMERS */
+ start_notice_events_timer (si, w, False);
+#endif /* !DEBUG_TIMERS */
}
break;
if (p->verbose_p)
{
if (event.xany.type == MotionNotify)
- printf ("%s: MotionNotify at %s\n", progname, timestring ());
+ fprintf (stderr,"%s: MotionNotify at %s\n",blurb(),timestring());
else if (event.xany.type == KeyPress)
- printf ("%s: KeyPress seen on 0x%X at %s\n", progname,
- (unsigned int) event.xkey.window, timestring ());
+ fprintf (stderr, "%s: KeyPress seen on 0x%X at %s\n", blurb(),
+ (unsigned int) event.xkey.window, timestring ());
+ else if (event.xany.type == ButtonPress)
+ fprintf (stderr, "%s: ButtonPress seen on 0x%X at %s\n", blurb(),
+ (unsigned int) event.xbutton.window, timestring ());
}
#endif /* DEBUG_TIMERS */
- /* We got a user event */
+ /* If any widgets want to handle this event, let them. */
+ dispatch_event (si, &event);
+
+ /* We got a user event.
+ If we're waiting for the user to become active, this is it.
+ If we're waiting until the user becomes idle, reset the timers
+ (since now we have longer to wait.)
+ */
if (!until_idle_p)
- goto DONE;
+ {
+ if (si->demoing_p &&
+ (event.xany.type == MotionNotify ||
+ event.xany.type == KeyRelease))
+ /* When we're demoing a single hack, mouse motion doesn't
+ cause deactivation. Only clicks and keypresses do. */
+ ;
+ else
+ /* If we're not demoing, then any activity causes deactivation.
+ */
+ goto DONE;
+ }
else
reset_timers (si);
+
break;
default:
#ifdef HAVE_MIT_SAVER_EXTENSION
if (event.type == si->mit_saver_ext_event_number)
{
+ /* This event's number is that of the MIT-SCREEN-SAVER server
+ extension. This extension has one event number, and the event
+ itself contains sub-codes that say what kind of event it was
+ (an "idle" or "not-idle" event.)
+ */
XScreenSaverNotifyEvent *sevent =
(XScreenSaverNotifyEvent *) &event;
if (sevent->state == ScreenSaverOn)
{
-# ifdef DEBUG_TIMERS
+ int i = 0;
if (p->verbose_p)
- printf ("%s: ScreenSaverOn event received at %s\n",
- progname, timestring ());
-# endif /* DEBUG_TIMERS */
+ fprintf (stderr, "%s: MIT ScreenSaverOn event received.\n",
+ blurb());
/* Get the "real" server window(s) out of the way as soon
as possible. */
- int i = 0;
for (i = 0; i < si->nscreens; i++)
{
saver_screen_info *ssi = &si->screens[i];
if (sevent->kind != ScreenSaverExternal)
{
-# ifdef DEBUG_TIMERS
fprintf (stderr,
"%s: ScreenSaverOn event wasn't of type External!\n",
- progname);
-# endif /* DEBUG_TIMERS */
+ blurb());
}
if (until_idle_p)
}
else if (sevent->state == ScreenSaverOff)
{
-# ifdef DEBUG_TIMERS
if (p->verbose_p)
- printf ("%s: ScreenSaverOff event received at %s\n",
- progname, timestring ());
-# endif /* DEBUG_TIMERS */
+ fprintf (stderr, "%s: MIT ScreenSaverOff event received.\n",
+ blurb());
if (!until_idle_p)
goto DONE;
}
-# ifdef DEBUG_TIMERS
- else if (p->verbose_p)
- printf ("%s: unknown MIT-SCREEN-SAVER event received at %s\n",
- progname, timestring ());
-# endif /* DEBUG_TIMERS */
+ else
+ fprintf (stderr,
+ "%s: unknown MIT-SCREEN-SAVER event %d received!\n",
+ blurb(), sevent->state);
}
else
#ifdef HAVE_SGI_SAVER_EXTENSION
if (event.type == (si->sgi_saver_ext_event_number + ScreenSaverStart))
{
-# ifdef DEBUG_TIMERS
+ /* The SGI SCREEN_SAVER server extension has two event numbers,
+ and this event matches the "idle" event. */
if (p->verbose_p)
- printf ("%s: ScreenSaverStart event received at %s\n",
- progname, timestring ());
-# endif /* DEBUG_TIMERS */
+ fprintf (stderr, "%s: SGI ScreenSaverStart event received.\n",
+ blurb());
if (until_idle_p)
goto DONE;
else if (event.type == (si->sgi_saver_ext_event_number +
ScreenSaverEnd))
{
-# ifdef DEBUG_TIMERS
+ /* The SGI SCREEN_SAVER server extension has two event numbers,
+ and this event matches the "idle" event. */
if (p->verbose_p)
- printf ("%s: ScreenSaverEnd event received at %s\n",
- progname, timestring ());
-# endif /* DEBUG_TIMERS */
+ fprintf (stderr, "%s: SGI ScreenSaverEnd event received.\n",
+ blurb());
if (!until_idle_p)
goto DONE;
}
else
#endif /* HAVE_SGI_SAVER_EXTENSION */
- XtDispatchEvent (&event);
+ /* Just some random event. Let the Widgets handle it, if desired. */
+ dispatch_event (si, &event);
}
}
DONE:
doesn't exhibit itself without an extension, because in that case,
there's only one event generated by user activity, not two.)
*/
- XCheckMaskEvent (si->dpy, (KeyPressMask|ButtonPressMask|PointerMotionMask),
- &event);
+ if (!until_idle_p && si->locked_p)
+ swallow_unlock_typeahead_events (si, &event);
+ else
+ while (XCheckMaskEvent (si->dpy,
+ (KeyPressMask|ButtonPressMask|PointerMotionMask),
+ &event))
+ ;
if (si->check_pointer_timer_id)
si->timer_id = 0;
}
- if (until_idle_p && si->cycle_id)
+ if (until_idle_p && si->cycle_id) /* no cycle timer when inactive */
abort ();
return;
}
+\f
+/* Some crap for dealing with /proc/interrupts.
+
+ On Linux systems, it's possible to see the hardware interrupt count
+ associated with the keyboard. We can therefore use that as another method
+ of detecting idleness.
+
+ Why is it a good idea to do this? Because it lets us detect keyboard
+ activity that is not associated with X events. For example, if the user
+ has switched to another virtual console, it's good for xscreensaver to not
+ be running graphics hacks on the (non-visible) X display. The common
+ complaint that checking /proc/interrupts addresses is that the user is
+ playing Quake on a non-X console, and the GL hacks are perceptibly slowing
+ the game...
+
+ This is tricky for a number of reasons.
+
+ * First, we must be sure to only do this when running on an X server that
+ is on the local machine (because otherwise, we'd be reacting to the
+ wrong keyboard.) The way we do this is by noting that the $DISPLAY is
+ pointing to display 0 on the local machine. It *could* be that display
+ 1 is also on the local machine (e.g., two X servers, each on a different
+ virtual-terminal) but it's also possible that screen 1 is an X terminal,
+ using this machine as the host. So we can't take that chance.
+
+ * Second, one can only access these interrupt numbers in a completely
+ and utterly brain-damaged way. You would think that one would use an
+ ioctl for this. But no. The ONLY way to get this information is to
+ open the pseudo-file /proc/interrupts AS A FILE, and read the numbers
+ out of it TEXTUALLY. Because this is Unix, and all the world's a file,
+ and the only real data type is the short-line sequence of ASCII bytes.
+
+ Now it's all well and good that the /proc/interrupts pseudo-file
+ exists; that's a clever idea, and a useful API for things that are
+ already textually oriented, like shell scripts, and users doing
+ interactive debugging sessions. But to make a *C PROGRAM* open a file
+ and parse the textual representation of integers out of it is just
+ insane.
+
+ * Third, you can't just hold the file open, and fseek() back to the
+ beginning to get updated data! If you do that, the data never changes.
+ And I don't want to call open() every five seconds, because I don't want
+ to risk going to disk for any inodes. It turns out that if you dup()
+ it early, then each copy gets fresh data, so we can get around that in
+ this way (but for how many releases, one might wonder?)
+
+ * Fourth, the format of the output of the /proc/interrupts file is
+ undocumented, and has changed several times already! In Linux 2.0.33,
+ even on a multiprocessor machine, it looks like this:
+
+ 0: 309453991 timer
+ 1: 4771729 keyboard
+
+ but on later kernels with MP machines, it looks like this:
+
+ CPU0 CPU1
+ 0: 1671450 1672618 IO-APIC-edge timer
+ 1: 13037 13495 IO-APIC-edge keyboard
+
+ Joy! So how are we expected to parse that? Well, this code doesn't
+ parse it: it saves the last line with the string "keyboard" in it, and
+ does a string-comparison to note when it has changed.
+
+ Thanks to Nat Friedman <nat@nat.org> for figuring out all of this crap.
+
+ Note that this only checks for lines with "keyboard" or "PS/2 Mouse" in
+ them. If you have a serial mouse, it won't detect that, it will only detect
+ keyboard activity. That's because there's no way to tell the difference
+ between a serial mouse and a general serial port, and it would be somewhat
+ unfortunate to have the screensaver turn off when the modem on COM1 burped.
+ */
+
+
+#ifdef HAVE_PROC_INTERRUPTS
+
+#define PROC_INTERRUPTS "/proc/interrupts"
+
+Bool
+query_proc_interrupts_available (saver_info *si, const char **why)
+{
+ /* We can use /proc/interrupts if $DISPLAY points to :0, and if the
+ "/proc/interrupts" file exists and is readable.
+ */
+ FILE *f;
+ if (why) *why = 0;
+
+ if (!display_is_on_console_p (si))
+ {
+ if (why) *why = "not on primary console";
+ return False;
+ }
+
+ f = fopen (PROC_INTERRUPTS, "r");
+ if (!f)
+ return False;
+
+ fclose (f);
+ return True;
+}
+
+
+static Bool
+proc_interrupts_activity_p (saver_info *si)
+{
+ static FILE *f0 = 0;
+ FILE *f1 = 0;
+ int fd;
+ static char last_kbd_line[255] = { 0, };
+ static char last_ptr_line[255] = { 0, };
+ char new_line[sizeof(last_kbd_line)];
+ Bool got_kbd = False, kbd_diff = False;
+ Bool got_ptr = False, ptr_diff = False;
+
+ if (!f0)
+ {
+ /* First time -- open the file. */
+ f0 = fopen (PROC_INTERRUPTS, "r");
+ if (!f0)
+ {
+ char buf[255];
+ sprintf(buf, "%s: error opening %s", blurb(), PROC_INTERRUPTS);
+ perror (buf);
+ goto FAIL;
+ }
+ }
+
+ if (f0 == (FILE *) -1) /* means we got an error initializing. */
+ return False;
+
+ fd = dup (fileno (f0));
+ if (fd < 0)
+ {
+ char buf[255];
+ sprintf(buf, "%s: could not dup() the %s fd", blurb(), PROC_INTERRUPTS);
+ perror (buf);
+ goto FAIL;
+ }
+
+ f1 = fdopen (fd, "r");
+ if (!f1)
+ {
+ char buf[255];
+ sprintf(buf, "%s: could not fdopen() the %s fd", blurb(),
+ PROC_INTERRUPTS);
+ perror (buf);
+ goto FAIL;
+ }
+
+ /* Actually, I'm unclear on why this fseek() is necessary, given the timing
+ of the dup() above, but it is. */
+ if (fseek (f1, 0, SEEK_SET) != 0)
+ {
+ char buf[255];
+ sprintf(buf, "%s: error rewinding %s", blurb(), PROC_INTERRUPTS);
+ perror (buf);
+ goto FAIL;
+ }
+
+ /* Now read through the pseudo-file until we find the "keyboard" line. */
+
+ while (fgets (new_line, sizeof(new_line)-1, f1))
+ {
+ if (!got_kbd && strstr (new_line, "keyboard"))
+ {
+ kbd_diff = (*last_kbd_line && !!strcmp (new_line, last_kbd_line));
+ strcpy (last_kbd_line, new_line);
+ got_kbd = True;
+ }
+ else if (!got_ptr && strstr (new_line, "PS/2 Mouse"))
+ {
+ ptr_diff = (*last_ptr_line && !!strcmp (new_line, last_ptr_line));
+ strcpy (last_ptr_line, new_line);
+ got_ptr = True;
+ }
+
+ if (got_kbd && got_ptr)
+ break;
+ }
+
+ if (got_kbd || got_ptr)
+ {
+ fclose (f1);
+ return (kbd_diff || ptr_diff);
+ }
+
+
+ /* If we got here, we didn't find either a "keyboard" or a "PS/2 Mouse"
+ line in the file at all. */
+ fprintf (stderr, "%s: no keyboard or mouse data in %s?\n",
+ blurb(), PROC_INTERRUPTS);
+
+ FAIL:
+ if (f1)
+ fclose (f1);
+
+ if (f0 && f0 != (FILE *) -1)
+ fclose (f0);
+
+ f0 = (FILE *) -1;
+ return False;
+}
+
+#endif /* HAVE_PROC_INTERRUPTS */
+
+\f
/* This timer goes off every few minutes, whether the user is idle or not,
to try and clean up anything that has gone wrong.
watchdog_timer (XtPointer closure, XtIntervalId *id)
{
saver_info *si = (saver_info *) closure;
- if (!si->demo_mode_p)
+
+ disable_builtin_screensaver (si, False);
+
+ if (si->screen_blanked_p)
{
- disable_builtin_screensaver (si, False);
- if (si->screen_blanked_p)
- {
- Bool running_p = screenhack_running_p(si);
+ Bool running_p = screenhack_running_p (si);
+ if (si->dbox_up_p)
+ {
#ifdef DEBUG_TIMERS
- if (si->prefs.verbose_p)
- printf ("%s: watchdog timer raising %sscreen.\n",
- progname, (running_p ? "" : "and clearing "));
+ if (si->prefs.verbose_p)
+ fprintf (stderr, "%s: dialog box is up: not raising screen.\n",
+ blurb());
+#endif /* DEBUG_TIMERS */
+ }
+ else
+ {
+#ifdef DEBUG_TIMERS
+ if (si->prefs.verbose_p)
+ fprintf (stderr, "%s: watchdog timer raising %sscreen.\n",
+ blurb(), (running_p ? "" : "and clearing "));
#endif /* DEBUG_TIMERS */
- raise_window (si, True, True, running_p);
+ raise_window (si, True, True, running_p);
+ }
+
+ if (!monitor_powered_on_p (si))
+ {
+ if (si->prefs.verbose_p)
+ fprintf (stderr,
+ "%s: server reports that monitor has powered down; "
+ "killing running hacks.\n", blurb());
+ kill_screenhack (si);
}
+
+ /* Re-schedule this timer. The watchdog timer defaults to a bit less
+ than the hack cycle period, but is never longer than one hour.
+ */
+ si->watchdog_id = 0;
+ reset_watchdog_timer (si, True);
}
}
#ifdef DEBUG_TIMERS
if (p->verbose_p)
- printf ("%s: restarting watchdog_timer (%ld, %ld)\n",
- progname, p->watchdog_timeout, si->watchdog_id);
+ fprintf (stderr, "%s: restarting watchdog_timer (%ld, %ld)\n",
+ blurb(), p->watchdog_timeout, si->watchdog_id);
#endif /* DEBUG_TIMERS */
}