On 05/14/2014 11:56 PM, Viresh Kumar wrote:
Douglas Anderson, recently pointed out an interesting problem due to which his udelay() was expiring earlier than it should: https://lkml.org/lkml/2014/5/13/766
While transitioning between frequencies few platforms may temporarily switch to a stable frequency, waiting for the main PLL to stabilize.
For example: When we transition between very low frequencies on exynos, like between 200MHz and 300MHz, we may temporarily switch to a PLL running at 800MHz. No CPUFREQ notification is sent for that. That means there's a period of time when we're running at 800MHz but loops_per_jiffy is calibrated at between 200MHz and 300MHz. And so udelay behaves badly.
To get this fixed in a generic way, lets introduce another callback safe_freq() for the cpufreq drivers.
safe_freq() should return a stable intermediate frequency a platform might want to switch to, before jumping to the frequency corresponding to 'index'. Core will send the 'PRE' notification for this 'stable' frequency and 'POST' for the 'target' frequency. Though if ->target_index() fails, it will handle POST for 'stable' frequency only.
Drivers must send 'POST' notification for 'stable' freq and 'PRE' for 'target' freq. If they can't switch to target frequency, they don't need to send any notification.
This seems rather complex. Can't either the driver or the cpufreq core be responsible for all of the notifications? Otherwise, the logic gets rather complex, and spread between the core and the driver.
Perhaps the core should make separate calls into the driver to switch to the temporary frequency and the final frequency, so it can manage all the notifications. Probably best to use a separate function pointer for the temporary change so the driver can easily know what it's doing.