On 7/31/23 16:20, Takashi Iwai wrote:
[...]
Uh, I don't need a full sound device to emit beeps, that's not even
possible with this hardware.
Heh, I also don't recommend that route, either :)
(Though, it must be possible to create a sound device with that beep
control in theory)
I mean, I can imagine one could possibly use PCM DMA to cook samples
to feed some of the PWM devices so they could possibly be used to
generate low quality audio, as a weird limited DAC, but ... that's not
really generic, and not what I want.
Oh I see how the misunderstanding came; I didn't mean the PCM
implementation like pcsp driver. The pcsp driver is a real hack and
it's there just for fun, not for any real practical use.
Ah :)
What I meant was rather that you can create a sound device containing
a mixer volume control that serves exactly like the sysfs or whatever
other interface, without any PCM stream or other interface.
Ahhh, hum, I still feel like this might be a bit overkill here.
I only need to control loudness of the
beeper that is controlled by PWM output. That's why I am trying to
extend the pwm-beeper driver, which seems the best fit for such a
device, it is only missing this one feature (loudness control).
So the question is what's expected from user-space POV. If a more
generic control of beep volume is required, e.g. for desktop-like
usages, an implementation of sound driver wouldn't be too bad.
OTOH, for other specific use-cases, it doesn't matter much in which
interface it's implemented, and sysfs could be an easy choice.
The whole discussion above has been exactly about this. Basically the
thing is, we can either have:
- SND_TONE (via some /dev/input/eventX) + sysfs volume control
-> This is simple, but sounds racy between input and sysfs accesses
Hmm, how can it be racy if you do proper locking?
I can imagine two applications can each grab one of the controls and
that makes the interface a bit not nice. That would require extra
synchronization in userspace and so on.
- SND_TONE + SND_TONE_SET_VOLUME
-> User needs to do two ioctls, hum
- some new SND_TONE_WITH_VOLUME
-> Probably the best option, user sets both tone frequency and volume
in one go, and it also only extends the IOCTL interface, so older
userspace won't have issues
Those are "extensions" I have mentioned, and I'm not a big fan for
that, honestly speaking.
The fact that the beep *output* stuff is provided by the *input*
device is already confusing
I agree, this confused me as well.
(it was so just because of historical
reason), and yet you start implementing more full-featured mixer
control. I'd rather keep fingers away.
Again, if user-space requires the compatible behavior like the
existing desktop usages
It does not. These pwm-beeper devices keep showing up in various
embedded devices these days.
, it can be implemented in a similar way like
the existing ones; i.e. provide a mixer control with a proper sound
device. The sound device doesn't need to provide a PCM interface but
just with a mixer interface.
Or, if the purpose of your target device is a special usage, you don't
need to consider too much about the existing interface, and try to
keep the change as minimal as possible without too intrusive API
changes.
My use case is almost perfectly matched by the current input pwm-beeper
driver, the only missing bit is the ability to control the loudness at
runtime. I think adding the SND_TONE_WITH_VOLUME parameter would cover
it, with least intrusive API changes.
The SND_TONE already supports configuring tone frequency in Hz as its
parameter. Since anything above 64 kHz is certainly not hearable by
humans, I would say the SND_TONE_WITH_VOLUME could use 16 LSbits for
frequency (so up to 65535 Hz , 0 is OFF), and 16 MSbits for volume .
I'm hesitant to overcomplicate something which can currently be
controlled via single ioctl by pulling in sound subsystem into the picture.