Re: Enable arm_global_timer for Zynq brakes boot
From: Stephen Boyd
Date: Thu Aug 08 2013 - 13:22:44 EST
On 08/08/13 10:16, Mark Rutland wrote:
> On Thu, Aug 08, 2013 at 06:11:26PM +0100, SÃren Brinkmann wrote:
>> Hi Daniel,
>>
>> On Thu, Aug 01, 2013 at 07:48:04PM +0200, Daniel Lezcano wrote:
>>> On 08/01/2013 07:43 PM, SÃren Brinkmann wrote:
>>>> On Thu, Aug 01, 2013 at 07:29:12PM +0200, Daniel Lezcano wrote:
>>>>> On 08/01/2013 01:38 AM, SÃren Brinkmann wrote:
>>>>>> On Thu, Aug 01, 2013 at 01:01:27AM +0200, Daniel Lezcano wrote:
>>>>>>> On 08/01/2013 12:18 AM, SÃren Brinkmann wrote:
>>>>>>>> On Wed, Jul 31, 2013 at 11:08:51PM +0200, Daniel Lezcano wrote:
>>>>>>>>> On 07/31/2013 10:58 PM, SÃren Brinkmann wrote:
>>>>>>>>>> On Wed, Jul 31, 2013 at 10:49:06PM +0200, Daniel Lezcano wrote:
>>>>>>>>>>> On 07/31/2013 12:34 AM, SÃren Brinkmann wrote:
>>>>>>>>>>>> On Tue, Jul 30, 2013 at 10:47:15AM +0200, Daniel Lezcano wrote:
>>>>>>>>>>>>> On 07/30/2013 02:03 AM, SÃren Brinkmann wrote:
>>>>>>>>>>>>>> Hi Daniel,
>>>>>>>>>>>>>>
>>>>>>>>>>>>>> On Mon, Jul 29, 2013 at 02:51:49PM +0200, Daniel Lezcano wrote:
>>>>>>>>>>>>>> (snip)
>>>>>>>>>>>>>>> the CPUIDLE_FLAG_TIMER_STOP flag tells the cpuidle framework the local
>>>>>>>>>>>>>>> timer will be stopped when entering to the idle state. In this case, the
>>>>>>>>>>>>>>> cpuidle framework will call clockevents_notify(ENTER) and switches to a
>>>>>>>>>>>>>>> broadcast timer and will call clockevents_notify(EXIT) when exiting the
>>>>>>>>>>>>>>> idle state, switching the local timer back in use.
>>>>>>>>>>>>>> I've been thinking about this, trying to understand how this makes my
>>>>>>>>>>>>>> boot attempts on Zynq hang. IIUC, the wrongly provided TIMER_STOP flag
>>>>>>>>>>>>>> would make the timer core switch to a broadcast device even though it
>>>>>>>>>>>>>> wouldn't be necessary. But shouldn't it still work? It sounds like we do
>>>>>>>>>>>>>> something useless, but nothing wrong in a sense that it should result in
>>>>>>>>>>>>>> breakage. I guess I'm missing something obvious. This timer system will
>>>>>>>>>>>>>> always remain a mystery to me.
>>>>>>>>>>>>>>
>>>>>>>>>>>>>> Actually this more or less leads to the question: What is this
>>>>>>>>>>>>>> 'broadcast timer'. I guess that is some clockevent device which is
>>>>>>>>>>>>>> common to all cores? (that would be the cadence_ttc for Zynq). Is the
>>>>>>>>>>>>>> hang pointing to some issue with that driver?
>>>>>>>>>>>>> If you look at the /proc/timer_list, which timer is used for broadcasting ?
>>>>>>>>>>>> So, the correct run results (full output attached).
>>>>>>>>>>>>
>>>>>>>>>>>> The vanilla kernel uses the twd timers as local timers and the TTC as
>>>>>>>>>>>> broadcast device:
>>>>>>>>>>>> Tick Device: mode: 1
>>>>>>>>>>>> Broadcast device
>>>>>>>>>>>> Clock Event Device: ttc_clockevent
>>>>>>>>>>>>
>>>>>>>>>>>> When I remove the offending CPUIDLE flag and add the DT fragment to
>>>>>>>>>>>> enable the global timer, the twd timers are still used as local timers
>>>>>>>>>>>> and the broadcast device is the global timer:
>>>>>>>>>>>> Tick Device: mode: 1
>>>>>>>>>>>> Broadcast device
>>>>>>>>>>>> Clock Event Device: arm_global_timer
>>>>>>>>>>>>
>>>>>>>>>>>> Again, since boot hangs in the actually broken case, I don't see way to
>>>>>>>>>>>> obtain this information for that case.
>>>>>>>>>>> Can't you use the maxcpus=1 option to ensure the system to boot up ?
>>>>>>>>>> Right, that works. I forgot about that option after you mentioned, that
>>>>>>>>>> it is most likely not that useful.
>>>>>>>>>>
>>>>>>>>>> Anyway, this are those sysfs files with an unmodified cpuidle driver and
>>>>>>>>>> the gt enabled and having maxcpus=1 set.
>>>>>>>>>>
>>>>>>>>>> /proc/timer_list:
>>>>>>>>>> Tick Device: mode: 1
>>>>>>>>>> Broadcast device
>>>>>>>>>> Clock Event Device: arm_global_timer
>>>>>>>>>> max_delta_ns: 12884902005
>>>>>>>>>> min_delta_ns: 1000
>>>>>>>>>> mult: 715827876
>>>>>>>>>> shift: 31
>>>>>>>>>> mode: 3
>>>>>>>>> Here the mode is 3 (CLOCK_EVT_MODE_ONESHOT)
>>>>>>>>>
>>>>>>>>> The previous timer_list output you gave me when removing the offending
>>>>>>>>> cpuidle flag, it was 1 (CLOCK_EVT_MODE_SHUTDOWN).
>>>>>>>>>
>>>>>>>>> Is it possible you try to get this output again right after onlining the
>>>>>>>>> cpu1 in order to check if the broadcast device switches to SHUTDOWN ?
>>>>>>>> How do I do that? I tried to online CPU1 after booting with maxcpus=1
>>>>>>>> and that didn't end well:
>>>>>>>> # echo 1 > online && cat /proc/timer_list
>>>>>>> Hmm, I was hoping to have a small delay before the kernel hangs but
>>>>>>> apparently this is not the case... :(
>>>>>>>
>>>>>>> I suspect the global timer is shutdown at one moment but I don't
>>>>>>> understand why and when.
>>>>>>>
>>>>>>> Can you add a stack trace in the "clockevents_shutdown" function with
>>>>>>> the clockevent device name ? Perhaps, we may see at boot time an
>>>>>>> interesting trace when it hangs.
>>>>>> I did this change:
>>>>>> diff --git a/kernel/time/clockevents.c b/kernel/time/clockevents.c
>>>>>> index 38959c8..3ab11c1 100644
>>>>>> --- a/kernel/time/clockevents.c
>>>>>> +++ b/kernel/time/clockevents.c
>>>>>> @@ -92,6 +92,8 @@ void clockevents_set_mode(struct clock_event_device *dev,
>>>>>> */
>>>>>> void clockevents_shutdown(struct clock_event_device *dev)
>>>>>> {
>>>>>> + pr_info("ce->name:%s\n", dev->name);
>>>>>> + dump_stack();
>>>>>> clockevents_set_mode(dev, CLOCK_EVT_MODE_SHUTDOWN);
>>>>>> dev->next_event.tv64 = KTIME_MAX;
>>>>>> }
>>>>>>
>>>>>> It is hit a few times during boot, so I attach a full boot log. I really
>>>>>> don't know what to look for, but I hope you can spot something in it. I
>>>>>> really appreciate you taking the time.
>>>>> Thanks for the traces.
>>>> Sure.
>>>>
>>>>> If you try without the ttc_clockevent configured in the kernel (but with
>>>>> twd and gt), does it boot ?
>>>> Absence of the TTC doesn't seem to make any difference. It hangs at the
>>>> same location.
>>> Ok, IMO there is a problem with the broadcast device registration (may
>>> be vs twd).
>> I have an idea, but no real evidence to prove it:
>> Some of the registers in the arm_global_timer are banked per CPU. I.e.
>> some code must be executed on the CPU the timer is associated with
>> (struct clock_event_device.cpumask) to have the intended effect
>> As far as I can tell, there is no guarantee, that the set_mode()
>> and program_next_event() calls execute on the correct CPU.
> I believe the core clockevents code enforces that, or all other percpu
> clockevent_device drivers would be horrifically broken.
Maybe the problem here is that a per-cpu device is being used for the
broadcast source? I can't recall but I think the broadcast programming
can bounce around CPUs depending on which CPU is the one to enter
broadcast mode first? At least I don't think this configuration has ever
been tested (for example, look at how tick_do_broadcast_on_off() enables
the broadcast timer on whatever CPU goes into deep idle first).
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