Parse "input.x11_options" and pass every key/name pair to the driver.
Remove check for input.capabilities, because that's part of the fdi files.
Thanks to Dustin Spicuzza <dustin@virtualroadside.com> for the patch.
The latter doesn't give you the option's value, it just tells you if
it's present in the configuration. So using Option "EXANoComposite" "false"
disabled composite acceleration.
This patch (and not setting HARDWARE_CURSOR_BIT_ORDER_MSBFIRST on big endian
platforms) fixes it for me with the radeon driver and doesn't break intel.
Correct patch this time :)
Should have done this in the first place. Since we're checking for the absence
of the get_crtc callback in the first place, we'll short circuit the later call
and disable the output, so the ugly "continue" block is unnecesary.
By adding a new output callback, ->get_crtc, xf86SetDesiredModes is able to
avoid turning off outputs & CRTCs if the current output<->CRTC mappings are the
same as the desired configuration. This helps avoid flickering displays at
startup time, which speeds things up a little and looks better.
Unless we check for vtSema before calling into the CRTC and output callbacks,
we may end up trying to access video memory that no longer exists, leading to a
crash. So if we don't have vtSema, return FALSE to the caller, indicating that
we didn't do anything.
Fixes#14444.
An astute observer will note that the entirety of XkbCopyKeymap is indented
with spaces, and no tabs whatsoever, and not commit changes which break the
otherwise consistent indentation.
A non-astute observer will note the breakage when the commit mail comes
through with clearly broken indentation.
A polite, non-astute, observer will then fix it.
C'est la vie.
When we fail an assert in miregion.c (which happens every now and then,
though I haven't yet checked up why), at least generate a segfault, so
we'll get a backtrace.
Actually more like in the mainline case, where the ideal mode happens to
be the very first aspect match on the first monitor. But let's not
split hairs.
The address written to 0xcf8 contains the PCI slot address to send the
config cycle to. However, we would ignore that and always send the
cycle to the device whose BIOS we were running. This breaks some
integrated graphics platforms that have explicit knowledge about the
system's host bridge, for example.
While the ScreenRec's notion of size in millimeters would get updates,
the RANDR 1.1 notion wouldn't, so your screen would appear to be square
and probably at some ludicrous DPI.
xserver and libpciaccess both need to open /dev/xf86, which can only
be opened once. I implemented pci_system_init_dev_mem() like Ian
suggested. This requires some minor changes to the BSD-specific
os-support code. Since pci_system_init_dev_mem() is a no-op on
FreeBSD this should be no problem.
Evaluating the address of a BoxRec as a boolean gives this warning:
i830_driver.c:2317: warning: the address of 'ScreenBox' will always
evaluate as 'true'
which is pretty annoying. This patch compares the address to NULL to
avoid the pointer->bool conversion and gets rid of the warning. Seems
like a lame hack, but the warning is worse.
i.e., don't check for the end of the list by ->name == NULL, since that
won't work now. Fix the consumers of xf86DefaultModes to use the new
explicit size as well.