OsInitColors always just returned TRUE, so just remove calls to it and
insane special-case logic. Remove unused kcolor.c implementation, and
merge oscolor.h into oscolor.c since it was the only user. Remove
open-coded strncasecmp in oscolor.c.
Since we no longer need to call OsInitColors after reading the config
file, just call PostConfigInit() from one place, and move PM handling to
one place so we can install the signal handlers earlier.
Add strncasecmp (as we're now using it) in case someone doesn't have it,
and also change strncasecmp args to be const, in accordance with
everything else.
If devices are prepended to the list, their wake-up order on resume is not the
same as the original initialisation order. Hot-plugged devices, originally
inited last, are re-enabled before the xorg.conf devices and in some cases may
steal the device files. Result: we have different devices before and after
suspend/resume.
RedHat Bug 439386 <https://bugzilla.redhat.com/show_bug.cgi?id=439386>
In the map stored in each keyboard device, the first line refers to
minimum keycode, i.e., the 0th line refers to keycode 8. When not
using XKB the wrong test caused some keys to be interpreted as
locks ('m' for instance). The had to be pressed twice to generate
both KeyPress and KeyRelease events.
Signed-off-by: Peter Hutterer <peter.hutterer@who-t.net>
We may need more than one handler to deal with a property (e.g. one in the
driver, one in the DIX), so get the handlers into a linked list and call them
one-by-one. This is of course slightly less entertaining than the hilarious
WRAP/UNWRAP game we play in other parts of the server.
XIRegisterPropertyHandler/XIUnregisterPropertyHandler are the interface
drivers/the DIX should use to attach themselves to the device.
XIDeleteAllDeviceProperties destroys everything, including the handlers.
Basically just copied from randr properties, with minor changes only.
Each device supports arbitrary properties that can be modified by clients.
Modifications to the properties are passed to the driver (if applicable) and
can then affect the configuration of the device.
Note that device properties are limited to a specific device. A property set
on a slave device does not migrate to the master.
Basically just copied from randr properties, with minor changes only.
Each device supports arbitrary properties that can be modified by clients.
Modifications to the properties are passed to the driver (if applicable) and
can then affect the configuration of the device.
Note that device properties are limited to a specific device. A property set
on a slave device does not migrate to the master.
This fixes a severe issue - when the client died the event mask didn't get
unregistered and a future event would dereference dangling pointers. By
storing the event masks in the resource system we can free them when the
client dies.
- Allow returning multiple drivers to try for a given PCI id (for instance,
try "geode" then "amd" for AMD Geode hardware)
- On Solaris, use VIS_GETIDENTIFIER ioctl as well as PCI id to choose drivers
- Use wsfb instead of fbdev as a fallback on non-Linux SPARC platforms
Remove AEI check from configImpliedLayout as the setting isn't actually parsed
at this point anyway (written by Sasha Hlusiak).
Resurrect checkInput() and check for devices there if AEI is false (this also
creates the default devices if required).
Set AllowEmptyInput to enabled by default if hotplugging is enabled.
If no Screen is specified in the ServerLayout section, either take the first
one from the config file or autogenerate a default screen.
X.Org Bug 16301 <http://bugs.freedesktop.org/show_bug.cgi?id=16301>
<http://bugs.opensolaris.org/view_bug.do?bug_id=6685465>
This bug is caused by Xephyr not handling the RGB byte order correctly
of the server where Xephyr is displaying on. The previous code just
assumed that the order was RGB and did not take into account that
Xservers may use different order (such as BGR).
The fix is to add a function to calculate the byte order and bits
to shift based on the visual mask and the visual bits_per_rgb (which
is usually 8, but could be server dependent). Since the shifts won't
change once the display connection has been made, I can cache these
values so that Xephyr doesn't have to keep recalculating them everytime
it tries to translate the Xephyr colormap entries for Xephyr clients to
the actual server colormap entries (i.e. calling the function
hostx_set_cmap_entry() repeatedly for every colormap entry).
RandR 1.1 has a physical size for each mode. It used to be that the DIX would
remember these modes and pass them back up to the DDX when changing the screen
configuration. The DDX uses RR_GET_MODE_MM to query the driver for the physical
dimensions of the screen, allowing it to preserve the DPI.
With RandR 1.2, the physical dimensions are stored as part of the output, rather
than per mode. The DIX only uses the sizes passed in from the DDX to select the
mode pool for the "default" output, and forgets the physical sizes. Then, when
reconfiguring the screen, it makes up a new RRScreenSizeRec using the dimensions
from the output, screwing up the DPI.
This change works around this problem by ignoring the DIX and querying the real
size from the driver.