[RFC 6/9] clk: ti: add support for omap4 module clocks
Tero Kristo
t-kristo at ti.com
Mon Jan 4 11:15:36 PST 2016
On 01/04/2016 06:37 PM, Tony Lindgren wrote:
> * Russell King - ARM Linux <linux at arm.linux.org.uk> [160104 06:43]:
>> On Mon, Jan 04, 2016 at 03:27:57PM +0200, Tero Kristo wrote:
>>> On 01/04/2016 12:21 PM, Geert Uytterhoeven wrote:
>>>> FWIW, there are small loops with just a cpu_relax() in various clock drivers
>>>> under drivers/clk/shmobile/.
>>>
>>> Just did a quick profiling round, and the clk_enable/disable delay loops
>>> take anything from 0...1500ns, most typically consuming some 400-600ns. So,
>>> based on this, dropping the udelay and adding cpu_relax instead looks like a
>>> good change. I just verified that changing the udelay to cpu_relax works
>>> fine also, I just need to change the bail-out period to be something sane.
>>
>> Was that profiling done with lockdep/lock debugging enabled or disabled?
omap2plus_defconfig, so lockdep was enabled. The profiling was done
around the while {} block though, which should not have any locks within
it (except for the SCM clocks, which may explain some of the higher
latency numbers seen.)
> And also the thing to check from the hw folks is what all do these clkctrl
> bits really control. If they group together the OCP clock and an extra
> functional clock for some devices the delays could be larger.
Does it matter really? The latencies are only imposed to the device in
question, and lets face it, the same latencies are there already with
the hwmod implementation. This series moves the implementation under
clock driver with as less modifications as possible to avoid any problems.
> In general, I think we need to get rid of pm_runtime_irq_safe usage to
> allow clocks to sleep properly. The other option is to allow toggling
> pm_runtime_irq_safe but that probably gets super messy.
That is something not to be done with this set though.
-Tero
More information about the linux-arm-kernel
mailing list