[Intel-gfx] [PATCH v2 1/1] drm/i915: Fix VGA handling using stop_machine() or mmio

Ville Syrjälä ville.syrjala at linux.intel.com
Mon Sep 30 17:09:48 CEST 2013


On Mon, Sep 30, 2013 at 08:43:51AM -0600, Alex Williamson wrote:
> On Mon, 2013-09-30 at 17:08 +0300, ville.syrjala at linux.intel.com wrote:
> > From: Ville Syrjälä <ville.syrjala at linux.intel.com>
> > 
> > We have several problems with out VGA handling:
> > - We try to use the GMCH control VGA disable bit even though it may
> >   be locked
> > - If we manage to disable VGA throuh GMCH control, we're no longer
> >   able to correctly disable the VGA plane
> > - Taking part in the VGA arbitration is too expensive for X [1]
> > 
> > So let's treat the GMCH control VGA disable bit as read-only and leave
> > it for the BIOS to set, as it was intended. To disable VGA we will use
> > the VGA misc register, and to disable VGA IO we will disable IO space
> > completely via the PCI command register.
> > 
> > But we still need VGA register access during resume (and possibly during
> > lid event on insane BIOSen) to disable the VGA plane. Also we need to
> > re-disable VGA memory decode via the VGA misc register on resume.
> > 
> > Luckily up to gen4, VGA registers can be accessed through MMIO.
> > Unfortunately from gen5 onwards only the legacy VGA IO port range
> > works. So on gen5+ we still need IO space to be enabled during those
> > few special moments when we need to access VGA registers.
> > 
> > We still want to opt out of VGA arbitration on gen5+, so we have keep
> > IO space disabled most of the time. And when we do need to poke at VGA
> > registers, we enable IO space briefly while no one is looking. To
> > guarantee that no one is looking we will use stop_machine().
> 
> What?!  Why would we not simply wait for the arbiter lock?

Well, there are the X problems which I really don't want to
attempt solving.

Also the arbiter looks a lot like deadlock heaven to me.

What if the other guy doesn't release the arbiter lock in a timely
fashion? It could be some userspace process that's stopped inside
gdb or something.

What if we're doing the restore thing in intel_lid_notify()
and we've already locked the modeset locks and are now waiting
for the arbiter lock, but the other guy who is holding the arbiter
lock is doing a modeset ioctl at the same time and gets stuck
waiting for a modeset lock?

I guess we might be able to solve those problems by killing
the userspace client after a while. But I'd rather just hide
and go code up something more productive ;)

-- 
Ville Syrjälä
Intel OTC



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