Call ProcessOtherEvents first, then for all keyboard devices let them be
wrapped by XKB. This way all XI events will go through XKB.
Note that the VCK is still not wrapped, so core events will bypass XKB.
XI events can now take the same processing paths as core events, and should do
the correct state changes etc.
There's some cases where XKB will use KeyPress as type for an event to be
delivered to the client. Stuck warnings in, not sure what the correct solution
is yet.
The device state needs to be changed while processing the XI event. Core
events are always processed after XI, so by then the device is already set up
properly. However, we now rely on DeviceButtonMotionMask to be equal to
ButtonMotionMask. It already is, but stick a big fat warning in so nobody
attempts to change it.
This commit disables XKB for the VCK, thus essentially for all devices.
Temporarily anyway.
This reverts commit 6b055e5d97.
MPX relies on the XI event being delivered before the core event. Device grabs
break, amongst other things. I guess stuck modifiers need to be fixed some
other way.
Conflicts:
dix/getevents.c
Using a global array for action filters is bad. If two keyboard hit a modifier
at the same time, releaseing the first one will deactivate the filter and
thus the second keyboard can never release the modifier again.
Previous version only moved the VCP, causing "bogus pointer events" lateron.
Now we run through the device list, updating each pointer separately if
necessary.
Also stick a big warning into RRPointerMoved, not sure what device we need to
work on here.
We shouldn't be able to restrict events like Expose, etc. with device based
ACLs. So we just ignore all non-input events when checking for permissions.
As a result, we can remove the quirks that existed to flip the bits back around
for us. This is not confirmed in all cases due to lack of bugs containing EDID
blocks associated with the quirks, but is likely true.
RRFirstOutput returns the first active output, which won't be set until
after RRScanOldConfig is finished running. Instead, just use the first
output (which is the only output present with an old driver, after all).
A passive core grab doesn't specify the device, and is thus created with the
ClientPointer as device. When this grab is activated later, don't actually
activate the grab on the grab device, but rather change the device to the one
that caused the grab to activate. Same procedure for keyboards.
Makes core apps _A LOT_ more useable and reduces the need to set the
ClientPointer.
Only applies to core grabs!
I exported the evdev driver to Xephyr server. I'm running it using something
like:
$ ./hw/kdrive/ephyr/Xephyr :1 -mouse evdev,,device=/dev/input/event4 -keybd \
evdev,,device=/dev/input/event1,xkbmodel=abnt2,xkblayout=br
It also closes /#5668.
Don't use our DBusError for property getting, because we simply don't care:
this fixes D-Bus error spew to stderr. Thanks Michel Dänzer for debugging
and testing.
and the Xephyr virtual mouse keeps alive. With this patch the semantic changes
turning '-pointer' && 'Xephyr virtual mouse' always false.
Now we can open a device pointer and pass its options in Xephyr's command line
without having other pointer unused.
Don't call fbFinishWrap until the pixman_image_t that stores the pointer is
actually freed. This prevents corruption or crashes caused by accessing a
wrapped pointer after the wrapping is torn down.
The outport is most likely unnecessary on any currently used hardware,
the byte copy is necessary from what I know on IA64 and friends so leave it.
Add a new API entry point which lets a driver select the old behaviour if
such a needs is ever found.
This gives me ~20% speed up on startup on 945 hardware.
This prevents situations where the server doesn't use the target the
client thinks it does, usually resulting in the texture being sampled as all
white.