On 7/21/21 6:43 PM, Daniel Thompson wrote:
On Wed, Jul 21, 2021 at 05:09:57PM +0200, Marek Vasut wrote:
On 7/21/21 12:49 PM, Daniel Thompson wrote:
However, on the basis of making things less fragile, I think the
underlying problem here is the assumption that it is safe to modify
enable_gpio before the driver has imposed state upon the PWM (this
assumption has always been made and, in addition to systems where the BL
has a phandle will also risks flicker problems on systems where
power_pwm_on_delay is not zero).
It is safe to modify the GPIO into defined state, but that defined state is
not always out/enabled, that defined state depends on the hardware.
It is only safe to do this once we know what the initial value should be
and I'm not sure that value can comes exclusively from reading the pin.
I agree, it is far from perfect, but so is the current code.
Agreed. Current handling of enable pin isn't right.
However, see below regarding the floating backlight enable pin.
This patch does not change the assumption that we can configure the
GPIO before we modify the PWM state. This means it won't fix the problem
for cases there the pin is HiZ by default but whose GPIOD_ASIS state is
neither input nor output.
That is correct, for pin that is floating, we lost. But then I would argue
that if your backlight-enable GPIO is floating, the hardware is buggy, I
would expect some pull resistor to keep the backlight off on power on on
that GPIO.
I didn't say that the pin was floating. I said that the pin was in a HiZ
state meaning it could still be subject to pull up/down.
However there are cases, such as when the regulator is off, where I
think it is entirely legitimate for the enable pin to be floating. The
current driver does the wrong thing here if the pin is set as input
since if the regulator is off the initial enable_gpio value should be 0.
Oh, right, that's a valid point.
So if the pin is input, we can basically toss a coin.
I don't think it is quite as bad as that: if the PWM and regulator
are enabled then it is not okay for this pin to be floating.
So then we would have to check the regulator and pwm state, however
Linux driver for those can reinit both the regulator and pwm block, so
we are growing more and more heuristics.
[...]
I think a reasonably elegant approach can be reached by making
pwm_backlight_initial_power_state() responsible for ensuring enable_gpio
matches the observed hardware state (taking into account both the pin
state and the regulator). I think this will fix both your flicker
concerns whilst permitting the legitimate cases for a floating pin.
Something like:
I think we are getting closer, but there is extra problem to this.
diff --git a/drivers/video/backlight/pwm_bl.c b/drivers/video/backlight/pwm_bl.c
index e48fded3e414..8d8959a70e44 100644
--- a/drivers/video/backlight/pwm_bl.c
+++ b/drivers/video/backlight/pwm_bl.c
@@ -409,6 +409,33 @@ static bool pwm_backlight_is_linear(struct
platform_pwm_backlight_data *data)
static int pwm_backlight_initial_power_state(const struct pwm_bl_data *pb)
{
struct device_node *node = pb->dev->of_node;
+ bool active = true;
+
+ /*
+ * If the enable GPIO is present, observable (either as input
+ * or output) and off then the backlight is not currently active.
+ * */
+ if (pb->enable_gpio && gpiod_get_value_cansleep(pb->enable_gpio) == 0)
+ active = false;
This will fail on iMX GPIO controller, where if the GPIO is output, you can
read its state, but by default that state is what you wrote into the GPIO
output value register, not what is the actual value on the pin (i.e.
consider you have a strong pull resistor that overpowers the driver).
To have a GPIO which is output and sample the actual pin value, you have to
tweak the pinmux and enable the SION bit, then you get the actual value. But
that is specific to the iMX GPIO controller/pinmux.
You're describing a situation where we own a GPIO output pin and the
value we believe we are driving into the pin is not being achieved due
to some additional factor.
E.g. disabled PWM or regulator.
Do we need to care about that? It sounds like
the backlight driver won't work properly in this case since whatever
value we set the enable_gpio then it will stay at the same value.
Possibly.
[...]
@@ -486,18 +500,6 @@ static int pwm_backlight_probe(struct platform_device
*pdev)
goto err_alloc;
}
- /*
- * If the GPIO is not known to be already configured as output, that
- * is, if gpiod_get_direction returns either 1 or -EINVAL, change the
- * direction to output and set the GPIO as active.
- * Do not force the GPIO to active when it was already output as it
- * could cause backlight flickering or we would enable the backlight too
- * early. Leave the decision of the initial backlight state for later.
- */
- if (pb->enable_gpio &&
- gpiod_get_direction(pb->enable_gpio) != 0)
- gpiod_direction_output(pb->enable_gpio, 1);
pwm_backlight_initial_power_state() is still called after pwm_apply_state()
in pwm_backlight_probe(), so that might still be too late, no ?
The initial pwm_apply_state() is essentially a nop or, perhaps, a sanity
check if you prefer to think if it that way.
It can change the PWM period in some (non-DT) cases but only if the PWM
is not already running... and the change of period should not start it
running.
All right, let me give this a try.
