/* timers.c --- detecting when the user is idle, and other timer-related tasks.
- * xscreensaver, Copyright (c) 1991-2002 Jamie Zawinski <jwz@jwz.org>
+ * xscreensaver, Copyright (c) 1991-2004 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_RANDR
+#include <X11/extensions/Xrandr.h>
+#endif /* HAVE_RANDR */
+
#include "xscreensaver.h"
#ifdef HAVE_PROC_INTERRUPTS
fake_event.xany.display = si->dpy;
fake_event.xany.window = 0;
XPutBackEvent (si->dpy, &fake_event);
+
+ /* If we are the timer that just went off, clear the pointer to the id. */
+ if (id)
+ {
+ if (si->timer_id && *id != si->timer_id)
+ abort(); /* oops, scheduled timer twice?? */
+ si->timer_id = 0;
+ }
}
-static void
+void
schedule_wakeup_event (saver_info *si, Time when, Bool verbose_p)
{
+ if (si->timer_id)
+ {
+ if (verbose_p)
+ fprintf (stderr, "%s: idle_timer already running\n", blurb());
+ return;
+ }
+
/* Wake up periodically to ask the server if we are idle. */
si->timer_id = XtAppAddTimeOut (si->app, when, idle_timer,
(XtPointer) si);
else
{
if (p->debug_p)
- fprintf (stderr, "%s: not starting cycle_timer: how_long == %d\n",
- blurb(), how_long);
+ fprintf (stderr, "%s: not starting cycle_timer: how_long == %ld\n",
+ blurb(), (unsigned long) how_long);
}
}
fprintf (stderr, "%s: killing idle_timer (%ld, %ld)\n",
blurb(), p->timeout, si->timer_id);
XtRemoveTimeOut (si->timer_id);
+ si->timer_id = 0;
}
schedule_wakeup_event (si, p->timeout, p->debug_p); /* sets si->timer_id */
*/
abort ();
- si->check_pointer_timer_id =
+ if (id && *id == si->check_pointer_timer_id) /* this is us - it's expired */
+ si->check_pointer_timer_id = 0;
+
+ if (si->check_pointer_timer_id) /* only queue one at a time */
+ XtRemoveTimeOut (si->check_pointer_timer_id);
+
+ si->check_pointer_timer_id = /* now re-queue */
XtAppAddTimeOut (si->app, p->pointer_timeout, check_pointer_timer,
(XtPointer) si);
int root_x, root_y, x, y;
unsigned int mask;
+ if (!ssi->real_screen_p) continue;
+
if (!XQueryPointer (si->dpy, ssi->screensaver_window, &root, &child,
&root_x, &root_y, &x, &y, &mask))
{
shift > (p->timeout / 1000))
{
if (p->verbose_p)
- fprintf (stderr, "%s: wall clock has jumped by %d:%02d:%02d!\n",
+ fprintf (stderr, "%s: wall clock has jumped by %ld:%02ld:%02ld!\n",
blurb(),
(shift / (60 * 60)), ((shift / 60) % 60), (shift % 60));
{
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. */
+ we come back around through the event loop again. */
schedule_wakeup_event (si, p->timeout, p->debug_p);
if (polling_mouse_position)
if (until_idle_p)
{
Time idle;
+
+ /* We may be idle; check one last time to see if the mouse has
+ moved, just in case the idle-timer went off within the 5 second
+ window between mouse polling. If the mouse has moved, then
+ check_pointer_timer() will reset last_activity_time.
+ */
+ if (polling_mouse_position)
+ check_pointer_timer ((XtPointer) si, 0);
+
#ifdef HAVE_XIDLE_EXTENSION
if (si->using_xidle_extension)
{
{
/* The event went off, but it turns out that the user has not
yet been idle for long enough. So re-signal the event.
- */
+ Be economical: if we should blank after 5 minutes, and the
+ user has been idle for 2 minutes, then set this timer to
+ go off in 3 minutes.
+ */
if (polling_for_idleness)
schedule_wakeup_event (si, p->timeout - idle, p->debug_p);
}
if (p->debug_p)
{
- Window root, window;
- int x, y;
+ Window root=0, window=0;
+ int x=-1, y=-1;
const char *type = 0;
if (event.xany.type == MotionNotify)
{
for (i = 0; i < si->nscreens; i++)
if (root == RootWindowOfScreen (si->screens[i].screen))
break;
- fprintf (stderr,"%s: %d: %s on 0x%x",
+ fprintf (stderr,"%s: %d: %s on 0x%lx",
blurb(), i, type, (unsigned long) window);
+
+ /* Be careful never to do this unless in -debug mode, as
+ this could expose characters from the unlock password. */
+ if (p->debug_p && event.xany.type == KeyPress)
+ {
+ KeySym keysym;
+ char c = 0;
+ XLookupString (&event.xkey, &c, 1, &keysym, 0);
+ fprintf (stderr, " (%s%s)",
+ (event.xkey.send_event ? "synthetic " : ""),
+ XKeysymToString (keysym));
+ }
+
if (x == -1)
fprintf (stderr, "\n");
else
else
#endif /* HAVE_SGI_SAVER_EXTENSION */
+#ifdef HAVE_RANDR
+ if (event.type == (si->randr_event_number + RRScreenChangeNotify))
+ {
+ /* The Resize and Rotate extension sends an event when the
+ size, rotation, or refresh rate of the screen has changed. */
+
+ XRRScreenChangeNotifyEvent *xrr_event =
+ (XRRScreenChangeNotifyEvent *) &event;
+ /* XRRRootToScreen is in Xrandr.h 1.4, 2001/06/07 */
+ int screen = XRRRootToScreen (si->dpy, xrr_event->window);
+
+ if (p->verbose_p)
+ {
+ if (si->screens[screen].width == xrr_event->width &&
+ si->screens[screen].height == xrr_event->height)
+ fprintf (stderr,
+ "%s: %d: no-op screen size change event (%dx%d)\n",
+ blurb(), screen,
+ xrr_event->width, xrr_event->height);
+ else
+ fprintf (stderr,
+ "%s: %d: screen size changed from %dx%d to %dx%d\n",
+ blurb(), screen,
+ si->screens[screen].width,
+ si->screens[screen].height,
+ xrr_event->width, xrr_event->height);
+ }
+
+# ifdef RRScreenChangeNotifyMask
+ /* Inform Xlib that it's ok to update its data structures. */
+ XRRUpdateConfiguration (&event); /* Xrandr.h 1.9, 2002/09/29 */
+# endif /* RRScreenChangeNotifyMask */
+
+ /* Resize the existing xscreensaver windows and cached ssi data. */
+ resize_screensaver_window (si);
+ }
+ else
+#endif /* HAVE_RANDR */
+
/* Just some random event. Let the Widgets handle it, if desired. */
dispatch_event (si, &event);
}
0: 309453991 timer
1: 4771729 keyboard
- but on later kernels with MP machines, it looks like this:
+ but in Linux 2.2 and 2.4 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.
+ and in Linux 2.6, it's gotten even goofier: now there are two lines
+ labelled "i8042". One of them is the keyboard, and one of them is
+ the PS/2 mouse -- and of course, you can't tell them apart, except
+ by wiggling the mouse and noting which one changes:
- Thanks to Nat Friedman <nat@nat.org> for figuring out all of this crap.
+ CPU0 CPU1
+ 1: 32051 30864 IO-APIC-edge i8042
+ 12: 476577 479913 IO-APIC-edge i8042
- 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.
+ Joy! So how are we expected to parse that? Well, this code doesn't
+ parse it: it saves the first line with the string "keyboard" (or
+ "i8042") in it, and does a string-comparison to note when it has
+ changed. If there are two "i8042" lines, we assume the first is
+ the keyboard and the second is the mouse (doesn't matter which is
+ which, really, as long as we don't compare them against each other.)
+
+ Thanks to Nat Friedman <nat@nat.org> for figuring out most of this crap.
+
+ Note that if you have a serial or USB mouse, or a USB keyboard, it won't
+ detect it. That's because there's no way to tell the difference between a
+ serial mouse and a general serial port, and all USB devices look the same
+ from here. It would be somewhat unfortunate to have the screensaver turn
+ off when the modem on COM1 burped, or when a USB disk was accessed.
*/
char new_line[sizeof(last_kbd_line)];
Bool checked_kbd = False, kbd_changed = False;
Bool checked_ptr = False, ptr_changed = False;
+ int i8042_count = 0;
if (!f0)
{
goto FAIL;
}
- /* Now read through the pseudo-file until we find the "keyboard" line. */
+ /* Now read through the pseudo-file until we find the "keyboard",
+ "PS/2 mouse", or "i8042" lines. */
while (fgets (new_line, sizeof(new_line)-1, f1))
{
- if (!checked_kbd && strstr (new_line, "keyboard"))
+ Bool i8042_p = !!strstr (new_line, "i8042");
+ if (i8042_p) i8042_count++;
+
+ if (strchr (new_line, ','))
+ {
+ /* Ignore any line that has a comma on it: this is because
+ a setup like this:
+
+ 12: 930935 XT-PIC usb-uhci, PS/2 Mouse
+
+ is really bad news. It *looks* like we can note mouse
+ activity from that line, but really, that interrupt gets
+ fired any time any USB device has activity! So we have
+ to ignore any shared IRQs.
+ */
+ }
+ else if (!checked_kbd &&
+ (strstr (new_line, "keyboard") ||
+ (i8042_p && i8042_count == 1)))
{
+ /* Assume the keyboard interrupt is the line that says "keyboard",
+ or the *first* line that says "i8042".
+ */
kbd_changed = (*last_kbd_line && !!strcmp (new_line, last_kbd_line));
strcpy (last_kbd_line, new_line);
checked_kbd = True;
}
- else if (!checked_ptr && strstr (new_line, "PS/2 Mouse"))
+ else if (!checked_ptr &&
+ (strstr (new_line, "PS/2 Mouse") ||
+ (i8042_p && i8042_count == 2)))
{
+ /* Assume the mouse interrupt is the line that says "PS/2 mouse",
+ or the *second* line that says "i8042".
+ */
ptr_changed = (*last_ptr_line && !!strcmp (new_line, last_ptr_line));
strcpy (last_ptr_line, new_line);
checked_ptr = True;
blurb(), p->watchdog_timeout, si->watchdog_id);
}
}
+
+
+/* It's possible that a race condition could have led to the saver
+ window being unexpectedly still mapped. This can happen like so:
+
+ - screen is blanked
+ - hack is launched
+ - that hack tries to grab a screen image (it does this by
+ first unmapping the saver window, then remapping it.)
+ - hack unmaps window
+ - hack waits
+ - user becomes active
+ - hack re-maps window (*)
+ - driver kills subprocess
+ - driver unmaps window (**)
+
+ The race is that (*) might have been sent to the server before
+ the client process was killed, but, due to scheduling randomness,
+ might not have been received by the server until after (**).
+ In other words, (*) and (**) might happen out of order, meaning
+ the driver will unmap the window, and then after that, the
+ recently-dead client will re-map it. This leaves the user
+ locked out (it looks like a desktop, but it's not!)
+
+ To avoid this: after un-blanking the screen, we launch a timer
+ that wakes up once a second for ten seconds, and makes damned
+ sure that the window is still unmapped.
+ */
+
+void
+de_race_timer (XtPointer closure, XtIntervalId *id)
+{
+ saver_info *si = (saver_info *) closure;
+ saver_preferences *p = &si->prefs;
+ int secs = 1;
+
+ if (id == 0) /* if id is 0, this is the initialization call. */
+ {
+ si->de_race_ticks = 10;
+ if (p->verbose_p)
+ fprintf (stderr, "%s: starting de-race timer (%d seconds.)\n",
+ blurb(), si->de_race_ticks);
+ }
+ else
+ {
+ int i;
+ XSync (si->dpy, False);
+ for (i = 0; i < si->nscreens; i++)
+ {
+ saver_screen_info *ssi = &si->screens[i];
+ Window w = ssi->screensaver_window;
+ XWindowAttributes xgwa;
+ XGetWindowAttributes (si->dpy, w, &xgwa);
+ if (xgwa.map_state != IsUnmapped)
+ {
+ if (p->verbose_p)
+ fprintf (stderr,
+ "%s: %d: client race! emergency unmap 0x%lx.\n",
+ blurb(), i, (unsigned long) w);
+ XUnmapWindow (si->dpy, w);
+ }
+ else if (p->debug_p)
+ fprintf (stderr, "%s: %d: (de-race of 0x%lx is cool.)\n",
+ blurb(), i, (unsigned long) w);
+ }
+ XSync (si->dpy, False);
+
+ si->de_race_ticks--;
+ }
+
+ if (id && *id == si->de_race_id)
+ si->de_race_id = 0;
+
+ if (si->de_race_id) abort();
+
+ if (si->de_race_ticks <= 0)
+ {
+ si->de_race_id = 0;
+ if (p->verbose_p)
+ fprintf (stderr, "%s: de-race completed.\n", blurb());
+ }
+ else
+ {
+ si->de_race_id = XtAppAddTimeOut (si->app, secs * 1000,
+ de_race_timer, closure);
+ }
+}