Hello Paul,
On Tue, Oct 25, 2022 at 11:02:00AM +0100, Paul Cercueil wrote:
Le mar. 25 oct. 2022 à 08:21:29 +0200, Uwe Kleine-König u.kleine-koenig@pengutronix.de a écrit :
Hello,
On Mon, Oct 24, 2022 at 09:52:09PM +0100, Paul Cercueil wrote:
The "duty > cycle" trick to force the pin level of a disabled TCU2 channel would only work when the channel had been enabled previously.
Address this issue by enabling the PWM mode in jz4740_pwm_disable (I know, right) so that the "duty > cycle" trick works before disabling the PWM channel right after.
This issue went unnoticed, as the PWM pins on the majority of the boards tested would default to the inactive level once the corresponding TCU clock was enabled, so the first call to jz4740_pwm_disable() would not actually change the pin levels.
On the GCW Zero however, the PWM pin for the backlight (PWM1, which is a TCU2 channel) goes active as soon as the timer1 clock is enabled. Since the jz4740_pwm_disable() function did not work on channels not previously enabled, the backlight would shine at full brightness from the moment the backlight driver would probe, until the backlight driver tried to *enable* the PWM output.
With this fix, the PWM pins will be forced inactive as soon as jz4740_pwm_apply() is called (and might be reconfigured to active if dictated by the pwm_state). This means that there is still a tiny time frame between the .request() and .apply() callbacks where the PWM pin might be active. Sadly, there is no way to fix this issue: it is impossible to write a PWM channel's registers if the corresponding clock is not enabled, and enabling the clock is what causes the PWM pin to go active.
There is a workaround, though, which complements this fix: simply starting the backlight driver (or any PWM client driver) with a "init" pinctrl state that sets the pin as an inactive GPIO. Once the driver is probed and the pinctrl state switches to "default", the regular PWM pin configuration can be used as it will be properly driven.
Fixes: c2693514a0a1 ("pwm: jz4740: Obtain regmap from parent node") Signed-off-by: Paul Cercueil paul@crapouillou.net Cc: stable@vger.kernel.org
OK, understood the issue. I think there is another similar issue: The clk is get and enabled only in the .request() callback. The result is (I think---depends on a few further conditions) that if you have the backlight driver as a module and the bootloader enables the backlight to show a splash screen, the backlight goes off because of the clk_disable_unused initcall.
I will have to verify, but I'm pretty sure disabling the clock doesn't change the pin level back to inactive.
Given that you set the clk's rate depending on the period to apply, I'd claim that you need to keep the clk on. Maybe it doesn't hurt, because another component of the system keeps the clk running, but it's wrong anyhow. Assumptions like these tend to break on new chip revisions.
Best regards Uwe