The window ID includes the client ID anyway, so we might as well just look up
the client directly instead of trying to get the window first and the client
from the window.
This also fixes a possible issue with XACE. If the client had permission to
write on the client but not on the window, the previous approach would have
failed.
All the rest of XI uses rc and returns rc in case of error, so make
mpx-related stuff comply. This stops the rest of XI sending the error
manually.
This is just a cosmetic change to be in line with the rest.
This doesn't change much, as the struct previously given has the same size as
the ones now anyway. Still, we should be pendantic.
Thanks to Simon Thum for reporting.
If we have one global filter, one pointer may change the filter value and
affect another pointer.
Reproduceable effect:
blackbox and xterm, start dragging xterm then click anywhere with the other
pointer (attached to different masterd device!). The button release resets
the filter[Motion_Filter(button)] value, thus stopping dragging and no event
is sent to the client anymore.
Having the filters set per device gets around this.
Setting it to the size of a pointer is an interesting but equally wrong
approach. Luckily Xlib never used this field anyway so nobody got hurt so far.
Spotted by Simon Thum.
(cherry picked from commit 0f2398d06c)
Setting it to the size of a pointer is an interesting but equally wrong
approach. Luckily Xlib never used this field anyway so nobody got hurt so far.
Spotted by Simon Thum.
We free the ValuatorClassRec quite regularly. If a SIGIO is handled while
we're swapping device classes, we can bring the server down when we try to
access lastx/lasty of the master device.
Sometimes (e.g. on my debian ppc box) maxKeysPerModifier of the SD is 0. So we
try to malloc(0), bringing the whole server down with a FatalError because it
looks as if the malloc failed. This is bad, so only alloc if we actually have
something to alloc.
Turns out it's really really hard synchronising device state across multiple
duplicated events if they all share the same struct. So instead of doing so,
when the SD changes deep-copy all it's classes into the MD. The MD then has
the same capabilities, but the state can be set separately. This should fix
xkb, key state, repeat etc. problems.
Updating the device state allows us to remove the SwitchCoreKeyboard from the
event gathering, it's all done during event processing now.
The master needs to have the same devPrivate as the slave, in case a client
issues a request that goes down to the driver.
Example: if a driver wants to ring the keyboard bell, it'll pick a keyboard.
The KeyClassPtr will direct it to the matching method in the driver, but
because the MD doesn't have the devPrivate set the driver segfaults.
Even if all drivers were updated to not dereference the nullpointer, nothing
would actually ever happen.
To avoid this, we flip the master's public.devPrivate to the last SDs
devPrivate.
POE now only deals with processing the event and calling the appropriate
delivery methods. Actually modifying the device state is done in
UpdateDeviceState. This separation should make it easier to avoid setting the
state twice when master events are processed.
Each time a different slave device sends through a master, an
DeviceClassesChangedEvent is enqueued. When this event is processed, all
classes of the matching master device are changed, and the event is sent to
the clients.
Next time the master is queried, it thus shows the evclasses of the last slave
device. The original classes are stored in the devPrivates.
TODO: if all slave devices are removed, the master's original classes need to
be restored.
Removes "LookupKeyboardDevice" and "LookupPointerDevice" in favor of
inputInfo.keyboard and inputInfo.pointer, respectively; all use cases
are non-XI compliant anyway.
Let the drivers only generate XI events and put those into the event queue.
When processing events, generate core events as needed. This fixes a number of
problems with XKB and the DIX in general.
The previous approach was to put core events and XI events as separate events
into the event queue. When being processed, the server had no knowledge of
them coming from the same device state change. Anything that would then change
the state of the device accordingly was in danger of changing it twice,
leading to some funny (i.e. not funny at all) results.
Emulating core events while processing XI events fixes this, there is only one
path that actually changes the device state now. Although we have to be
careful when replaying events from synced devices, otherwise we may lose
events.
Note: XI has precedence over core for passive grabs, but core events are
delivered to the client first.
This removes the wrapping added in 340911d724
Followup to [1].
If a core grab causes the device to freeze, it overwrites the processInputProc
of the device. [1] would then overwrite this while unwrapping, the device
does not thaw anymore.
Changing this to only re-wrap if the processInputProc hasn't been changed
during the event handling.
[1] 340911d724