If we inherited a signal mask from the parent process that ignores SIGUSR1,
then we will send SIGUSR1 to the parent to indicate when we're ready to
accept connections. Unfortunately, we send this notification way too
early, right after creating the sockets rather than just before entering
the main loop.
Move it to just before Dispatch() so we're not lying quite so much.
The smart scheduler itimer currently always fires after each request
(which in turn causes the CPU to wake out of idle, burning precious
power). Rather than doing this, just stop the timer before going into
the select() portion of the WaitFor loop. It's a cheap system call, and
it will only get called if there's no more commands batched up from the
active fd.
This change also allows some of the functions to be simplified;
setitimer() will only fail if it's passed invalid data, and we don't do
that... so make it void and remove all the conditional code that deals
with failure.
The change also allows us to remove a few variables that were used for
housekeeping between the signal handler and the main loop.
Signed-off-by: Keith Packard <keithp@koto.keithp.com>
This makes the root visual a GLX capable visual again and adds a GLX visual
for the COMPOSITE ARGB visual cleanly (as opposed to the hack we had before).
This changes the module initalization order so that the GLX module initializes
after COMPOSITE. The reason for this change is to be able to initialize a
GLX visual config for the COMPOSITE ARGB visual.
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.
(cherry picked from commit d627061b48)
Cope with Xi and pointer events in the (now increasingly misnamed)
XkbProcessKeyboardEvent. If it's the wrong type, call through the wrapping
chain to get out; else, process it.
Don't get XkbUpdateIndicators to update the indicators on all our devices: we
already deal with that ourselves.
Add exevents.h include to get more (proto)types.
Instead of hardcoding CoreProcessPointerEvent, actually try to unwrap properly
and then call the unwrapped processInputProc. Seems to be a better idea,
especially since it makes stuff actually work...
(cherry picked from commit 8f9bf927e1)
FixKeyState needs to be able to handle XI events, otherwise we get "impossible
keyboard events" on server zaps and other special key combos.
(cherry picked from commit 5ee409794e)
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.
(cherry picked from commit 6334d4e7be with some
additional compile fixes and non-MPX adaptations)
using a hardcoded ProcessKeyboardEvent. Otherwise we lose the ability to
process DeviceKeyEvents after the first key press.
This should be the correct fix now.
(cherry picked from commit 4d5df14f2c)
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.
(cherry picked from commit bfe6b4d2d9)
Don't build XF86Misc or XF86Vidmode in hw/xfree86/dixmod when it's been
explicitly disabled in configure, or we don't have the proto modules
installed.
Instead of removing the preference bit marking the hardware declared mode
preference, leave it in place and just move the user preferred mode to the
front of the list while marking it with the USERPREF bit which will cause it
to be selected by the initial mode selection code.
Hide getline call by checking for glibc. If not, use fgetln instead. Even
though this section is now #ifdef'ed for linux only, this should help make
it more portable if non-linux folks end up wanting it.
It contains static paths, fails to build on non-glibc, and apparently just
exists to support distributions managing binary drivers and open-source drivers
together. Also restores previous code for fallback to vesa if nothing is
detected.
Right now we default to "all" which gives us a situation much like before,
but when the "typical" option is implemented, we can change the default and
reduce the number of visuals the GLX module bloats the X server with.