Re: too many timer retries happen when do local timer swtich withbroadcast timer

From: Jason Liu
Date: Thu Feb 21 2013 - 05:49:48 EST


2013/2/21 Lorenzo Pieralisi <lorenzo.pieralisi@xxxxxxx>:
> Hi Jason,
>
> On Thu, Feb 21, 2013 at 06:16:51AM +0000, Jason Liu wrote:
>> 2013/2/20 Thomas Gleixner <tglx@xxxxxxxxxxxxx>:
>> > On Wed, 20 Feb 2013, Jason Liu wrote:
>> >> void arch_idle(void)
>> >> {
>> >> ....
>> >> clockevents_notify(CLOCK_EVT_NOTIFY_BROADCAST_ENTER, &cpu);
>> >>
>> >> enter_the_wait_mode();
>> >>
>> >> clockevents_notify(CLOCK_EVT_NOTIFY_BROADCAST_EXIT, &cpu);
>> >> }
>> >>
>> >> when the broadcast timer interrupt arrives(this interrupt just wakeup
>> >> the ARM, and ARM has no chance
>> >> to handle it since local irq is disabled. In fact it's disabled in
>> >> cpu_idle() of arch/arm/kernel/process.c)
>> >>
>> >> the broadcast timer interrupt will wake up the CPU and run:
>> >>
>> >> clockevents_notify(CLOCK_EVT_NOTIFY_BROADCAST_EXIT, &cpu); ->
>> >> tick_broadcast_oneshot_control(...);
>> >> ->
>> >> tick_program_event(dev->next_event, 1);
>> >> ->
>> >> tick_dev_program_event(dev, expires, force);
>> >> ->
>> >> for (i = 0;;) {
>> >> int ret = clockevents_program_event(dev, expires, now);
>> >> if (!ret || !force)
>> >> return ret;
>> >>
>> >> dev->retries++;
>> >> ....
>> >> now = ktime_get();
>> >> expires = ktime_add_ns(now, dev->min_delta_ns);
>> >> }
>> >> clockevents_program_event(dev, expires, now);
>> >>
>> >> delta = ktime_to_ns(ktime_sub(expires, now));
>> >>
>> >> if (delta <= 0)
>> >> return -ETIME;
>> >>
>> >> when the bc timer interrupt arrives, which means the last local timer
>> >> expires too. so,
>> >> clockevents_program_event will return -ETIME, which will cause the
>> >> dev->retries++
>> >> when retry to program the expired timer.
>> >>
>> >> Even under the worst case, after the re-program the expired timer,
>> >> then CPU enter idle
>> >> quickly before the re-progam timer expired, it will make system
>> >> ping-pang forever,
>> >
>> > That's nonsense.
>>
>> I don't think so.
>>
>> >
>> > The timer IPI brings the core out of the deep idle state.
>> >
>> > So after returning from enter_wait_mode() and after calling
>> > clockevents_notify() it returns from arch_idle() to cpu_idle().
>> >
>> > In cpu_idle() interrupts are reenabled, so the timer IPI handler is
>> > invoked. That calls the event_handler of the per cpu local clockevent
>> > device (the one which stops in C3). That ends up in the generic timer
>> > code which expires timers and reprograms the local clock event device
>> > with the next pending timer.
>> >
>> > So you cannot go idle again, before the expired timers of this event
>> > are handled and their callbacks invoked.
>>
>> That's true for the CPUs which not response to the global timer interrupt.
>> Take our platform as example: we have 4CPUs(CPU0, CPU1,CPU2,CPU3)
>> The global timer device will keep running even in the deep idle mode, so, it
>> can be used as the broadcast timer device, and the interrupt of this device
>> just raised to CPU0 when the timer expired, then, CPU0 will broadcast the
>> IPI timer to other CPUs which is in deep idle mode.
>>
>> So for CPU1, CPU2, CPU3, you are right, the IPI timer will bring it out of idle
>> state, after running clockevents_notify() it returns from arch_idle()
>> to cpu_idle(),
>> then local_irq_enable(), the IPI handler will be invoked and handle
>> the expires times
>> and re-program the next pending timer.
>>
>> But, that's not true for the CPU0. The flow for CPU0 is:
>> the global timer interrupt wakes up CPU0 and then call:
>> clockevents_notify(CLOCK_EVT_NOTIFY_BROADCAST_EXIT, &cpu);
>>
>> which will cpumask_clear_cpu(cpu, tick_get_broadcast_oneshot_mask());
>> in the function tick_broadcast_oneshot_control(),
>
> For my own understanding: at this point in time CPU0 local timer is
> also reprogrammed, with min_delta (ie 1us) if I got your description
> right.

yes, right.

>
>>
>> After return from clockevents_notify(), it will return to cpu_idle
>> from arch_idle,
>> then local_irq_enable(), the CPU0 will response to the global timer
>> interrupt, and
>> call the interrupt handler: tick_handle_oneshot_broadcast()
>>
>> static void tick_handle_oneshot_broadcast(struct clock_event_device *dev)
>> {
>> struct tick_device *td;
>> ktime_t now, next_event;
>> int cpu;
>>
>> raw_spin_lock(&tick_broadcast_lock);
>> again:
>> dev->next_event.tv64 = KTIME_MAX;
>> next_event.tv64 = KTIME_MAX;
>> cpumask_clear(to_cpumask(tmpmask));
>> now = ktime_get();
>> /* Find all expired events */
>> for_each_cpu(cpu, tick_get_broadcast_oneshot_mask()) {
>> td = &per_cpu(tick_cpu_device, cpu);
>> if (td->evtdev->next_event.tv64 <= now.tv64)
>> cpumask_set_cpu(cpu, to_cpumask(tmpmask));
>> else if (td->evtdev->next_event.tv64 < next_event.tv64)
>> next_event.tv64 = td->evtdev->next_event.tv64;
>> }
>>
>> /*
>> * Wakeup the cpus which have an expired event.
>> */
>> tick_do_broadcast(to_cpumask(tmpmask));
>> ...
>> }
>>
>> since cpu0 has been removed from the tick_get_broadcast_oneshot_mask(), and if
>> all the other cpu1/2/3 state in idle, and no expired timers, then the
>> tmpmask will be 0,
>> when call tick_do_broadcast().
>>
>> static void tick_do_broadcast(struct cpumask *mask)
>> {
>> int cpu = smp_processor_id();
>> struct tick_device *td;
>>
>> /*
>> * Check, if the current cpu is in the mask
>> */
>> if (cpumask_test_cpu(cpu, mask)) {
>> cpumask_clear_cpu(cpu, mask);
>> td = &per_cpu(tick_cpu_device, cpu);
>> td->evtdev->event_handler(td->evtdev);
>> }
>>
>> if (!cpumask_empty(mask)) {
>> /*
>> * It might be necessary to actually check whether the devices
>> * have different broadcast functions. For now, just use the
>> * one of the first device. This works as long as we have this
>> * misfeature only on x86 (lapic)
>> */
>> td = &per_cpu(tick_cpu_device, cpumask_first(mask));
>> td->evtdev->broadcast(mask);
>> }
>> }
>>
>> If the mask is empty, then tick_do_broadcast will do nothing and return, which
>> will make cpu0 enter idle quickly, and then system will ping-pang there.
>
> This means that the local timer reprogrammed above (to actually emulate the
> expired local timer on CPU0, likely to be set to min_delta == 1us) does not
> have time to expire before the idle thread disables IRQs and goes idle again.
>
> Is this a correct description of what's happening ?

yes, correct.

>
> Thanks a lot,
> Lorenzo
>
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