Hi,
On 5/18/20 4:40 AM, Dmitry Torokhov wrote:
Hi Hans, Peter,
On Mon, May 18, 2020 at 08:55:10AM +1000, Peter Hutterer wrote:
On Fri, May 15, 2020 at 08:19:10PM +0200, Hans de Goede wrote:
Hi Andrezj,
On 5/15/20 6:49 PM, Andrzej Pietrasiewicz wrote:
Userspace might want to implement a policy to temporarily disregard input
from certain devices, including not treating them as wakeup sources.
An example use case is a laptop, whose keyboard can be folded under the
screen to create tablet-like experience. The user then must hold the laptop
in such a way that it is difficult to avoid pressing the keyboard keys. It
is therefore desirable to temporarily disregard input from the keyboard,
until it is folded back. This obviously is a policy which should be kept
out of the kernel, but the kernel must provide suitable means to implement
such a policy.
Actually libinput already binds together (inside libinput) SW_TABLET_MODE
generating evdev nodes and e.g. internal keyboards on devices with 360°
hinges for this reason. libinput simply closes the /dev/input/event#
node when folded and re-opens it when the keyboard should become active
again. Thus not only suppresses events but allows e.g. touchpads to
enter runtime suspend mode which saves power. Typically closing the
/dev/input/event# node will also disable the device as wakeup source.
So I wonder what this series actually adds for functionality for
userspace which can not already be achieved this way?
Thanks Hans. To expand on this:
libinput has heuristics to guess which input devices (keyboards, touchpads)
are built-in ones. When the tablet mode switch is on, we disable these
devices internally (this is not visible to callers), and re-enable it again
later when the tablet mode switch is off again.
I think that is great that libinput has tried solving this for the
tablet mode, but unfortunately libinput only works for users of
libinput, leaving cases such as:
1. In-kernel input handlers, such as SysRq, VT and others
2. Systems that do not rely on libinput for userspace handing (Android,
Chrome OS)
3. Systems with policies that are more complex than tablet mode only.
Because of libinput's inability to affect the kernel, and the presence
of "always on" input handlers (sysrq, VT keyboard, potentially others),
while libinput may control whether consumers receive events from certain
input devices, it will not allow power savings that an explicit
"inhibit" allows when coming from dedicated power policy manager.
Ok, the sysrq and vt keyboard handlers keeping the device open and thus
make it keep using power is a valid reason for a separate inhibit mechanism.
I think pushing policy decisions into a library, and trying to have all
clients agree with it, is much harder and leaks unnecessary knowledge
into quite a few layers. A dedicated power policy manager, that is not
only responsible for input device, but power state of the system as a
whole, is a very viable architecture.
Well AFAIK the kernel-policy has always been to leave policy decisions
up to userspace as much as possible, but this just adds a mechanism to
implement the policy so that is fine.
This is done for keyboards and touchpads atm (and I think pointing sticks)
and where the heuristics fail we have extra quirks in place. For example
the Lenovo Yogas tend to disable the keyboard mechanically in tablet mode
but buttons (e.g. volume keys) around the screen send events through the
same event node. So on those devices we don't disable the keyboard.
We've had this code for a few years now and the only changes to it have been
the various device quirks for devices that must not suspend the keyboard,
it's otherwise working as expected.
If we ever have a device where we need to disable parts of the keyboard
only, we could address this with EVIOCSMASK but so far that hasn't been
necessary.
I agree with Hans, right now I don't see the usefulness of this new sysfs
toggle. For it to be really useful you'd have to guarantee that it's
available for 100% of the devices and that's IMO unlikely to happen.
The inhibiting of the events works for 100% of input devices, the power
savings work for the ones that implement it. It is responsibility of
folds shipping the systems to make sure drivers they use support inhibit
if they believe it will help their battery life.
Cheers,
Peter
I also noticed that you keep the device open (do not call the
input_device's close callback) when inhibited and just throw away
any events generated. This seems inefficient and may lead to
the internal state getting out of sync. What if a key is pressed
while inhibited and then the device is uninhibited while the key
is still pressed? Now the press event is lost and userspace
querying the current state will see the pressed key as being
released.
This is a good point. We should look into signalling that some events
have been dropped (via EV_SYN/SYN_DROPPED) so that clients are aware of
it.
On top of this you add special inhibit and uninhibit callbacks
and implement those for just a few devices. How do these differ
from just closing the device and later opening it again ?
I believe majority will simply reuse open/close callbacks. In Chrome OS
we have dedicated inhibit/uninhibit, but I would like to allow using
open/close as alternatives.
Ack, maybe some driver flag to just call close on inhibit and
open on unhibit (also taking input_device.users into account of course) ?
Also using a sysfs property for this is very weird given that the
rest of the evdev interface is using ioctls for everything...
This is not evdev interface, it is at the level above evdev (so that it
can affect all handlers, not only evdev). As such it is not bound by
evdev interface.
Ok I can see how on some systems the process implementing the policy
of when to inhibit would be separate from the process which has the
device open. But in e.g. the libinput case it would be good if
libinput could activate any potential power-savings by setting
the inhibit flag.
The problem with sysfs interfaces is that they typically require
root rights and that they are not really compatible with FD
passing. libinput runs as a normal user, getting a fd to the
/dev/input/event# node passed by systemd-logind.
As said I can see the reason for wanting a sysfs attribute for
this, can we perhaps have both a sysfs interface and an ioctl?
Note both could share the same boolean in the kernel, it would be
up to userspace to not try and write to both. E.g. chrome-os
would use the sysfs attr, libinput would use the ioctl.
Regards,
Hans