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SubjectRe: [PATCH 2/2] printk: Make the console flush configurable in hotplug path
On 2020-09-24 11:21, Thomas Gleixner wrote:
> On Thu, Sep 24 2020 at 08:33, Greg KH wrote:
>> On Wed, Sep 23, 2020 at 05:08:32PM -0700, Prasad Sodagudi wrote:
>>> +config CONSOLE_FLUSH_ON_HOTPLUG
>>> + bool "Enable console flush configurable in hot plug code path"
>>> + depends on HOTPLUG_CPU
>>> + def_bool n
>>
>> n is the default, no need to list it.
>>
>>> + help
>>> + In cpu hot plug path console lock acquire and release causes the
>>> + console to flush. If console lock is not free hot plug latency
>>> + increases. So make console flush configurable in hot plug path
>>> + and default disabled to help in cpu hot plug latencies.
>>
>> Why would you not want this option?
>>
>> Why isn't this just a bugfix?
>
> Because it's the normal behaviour of console lock and there are
> gazillion other ways to delay stuff in the hotplug path.
>
> CPU hotplug is not meant to be a high speed operation and if people
> think they need it to be fast then its pretty much guaranteed that they
> want it for the completely wrong reasons.
>
> This #ifdef tinkering is just digusting especially as it just tackles
> an
> obvious way how to delay timer migration, but does not address the
> underlying root cause.
>

Hi tglx,

Yes. I agree with you that there are other conditions, which could delay
the hotplug operation. But this console
flushing is not needed in the hotplug path. In the hotplug path, a core
is trying printing messages
from other core(by design of printk), delays the whole hotplug operation
and timers migration. As timers
migration gets delayed, it would impact the systems stability in device
stability testing.
To avoid timers delay in the timer migration in debug builds has to
choose this option.

I thought of changing the timers and irq migration as priority callbacks
in the hotplug out operation
but I observed some comments like shown below. I was under impression
that, it is hard to find all this
type of conditions, so started tinkering hotplug path by changing the
log levels.
These changes helped on Qualcomm platforms testing.
/*
* On the tear-down path, timers_dead_cpu() must be invoked
* before blk_mq_queue_reinit_notify() from notify_dead(),
* otherwise a RCU stall occurs.
*/
[CPUHP_TIMERS_PREPARE] = {
.name = "timers:prepare",
.startup.single = timers_prepare_cpu,
.teardown.single = timers_dead_cpu,
},

Another reason for adding #ifdef is that, I was not clear why console
flush is need cpuhp callback and thought
there might be some use cases and console flush use case might not be
valid for all the users of cpu hotplug.
I will try to explore the changing the callback order to complete the
timers and irq migration early in the hotplug operation.

Let me put some use cases of hotplug and why hotplug and hotplug
latency is important from testing point of view.
1) Secondary cpus are hotplug out during the device suspend and hotplug
in during the resume. So cpu hotplug operation is important production
devices point of view as user presses the power key many times.

2) sysfs nodes (/sys/devices/ststem/cpu/cpu4/oneline) are present from
linux kernel, so test team wants to test cpu hotplug. There could be
issues with in generic kernel, device drivers or firmware(psci calls
handling from firmware). There could be issues with device drivers or
firmware and test teams can not leave the hotplug untested in builds.

3) Linux kernel also gave provision to register call backs with cpu
hotplug framework(CPUHP_AP_ONLINE_DYN) dynamic callbacks.
3002 ret = cpuhp_setup_state_nocalls(CPUHP_AP_ONLINE_DYN,
"printk:online",
3003 console_cpu_notify, NULL);
So test team wants to test if any in tree or out of tree modules have
any issues with registered call backs or not.

4) Tracing of the cpuhp operation is important to find whether upstream
changes or out of tree modules(or firmware changes) caused latency
regression or not.

-Thanks, Prasad


>>> +#ifdef CONFIG_CONSOLE_FLUSH_ON_HOTPLUG
>>
>> #ifdef in .c code is a mess to maintain.
>>
>>> ret = cpuhp_setup_state_nocalls(CPUHP_PRINTK_DEAD, "printk:dead",
>>> NULL,
>>> console_cpu_notify);
>>> WARN_ON(ret < 0);
>>> ret = cpuhp_setup_state_nocalls(CPUHP_AP_ONLINE_DYN,
>>> "printk:online",
>>> console_cpu_notify, NULL);
>>> WARN_ON(ret < 0);
>>> - return 0;
>>> +#endif
>>
>> What happens if we don't make these calls entirely? Why not just
>> remove
>> them as who wants extra latency for their system?
>
> That's just wrong. If you don't want output, then adjust your loglevel,
> but delaying printks up to the point where by chance another printk
> happens is just silly.
>
> CPU hotplug is not about latency. It's slow by design and again, the
> timer migration is simply happening at the wrong place. But fixing that
> needs more thoughts than modifying log levels and sprinkling a few
> #ifdefs into the code.
>
> Thanks,
>
> tglx

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