Re: [PATCH v4 3/5] x86/umwait: Add sysfs interface to control umwait C0.2 state
From: Andy Lutomirski
Date: Mon Jun 10 2019 - 09:45:58 EST
> On Jun 9, 2019, at 11:02 PM, Fenghua Yu <fenghua.yu@xxxxxxxxx> wrote:
>
>> On Sun, Jun 09, 2019 at 09:24:18PM -0700, Andy Lutomirski wrote:
>>> On Sun, Jun 9, 2019 at 9:02 PM Fenghua Yu <fenghua.yu@xxxxxxxxx> wrote:
>>>
>>>> On Sat, Jun 08, 2019 at 03:50:32PM -0700, Andy Lutomirski wrote:
>>>>> On Fri, Jun 7, 2019 at 3:10 PM Fenghua Yu <fenghua.yu@xxxxxxxxx> wrote:
>>>>>
>>>>> C0.2 state in umwait and tpause instructions can be enabled or disabled
>>>>> on a processor through IA32_UMWAIT_CONTROL MSR register.
>>>>>
>>>>> By default, C0.2 is enabled and the user wait instructions result in
>>>>> lower power consumption with slower wakeup time.
>>>>>
>>>>> But in real time systems which require faster wakeup time although power
>>>>> savings could be smaller, the administrator needs to disable C0.2 and all
>>>>> C0.2 requests from user applications revert to C0.1.
>>>>>
>>>>> A sysfs interface "/sys/devices/system/cpu/umwait_control/enable_c02" is
>>>>> created to allow the administrator to control C0.2 state during run time.
>>>>
>>>> This looks better than the previous version. I think the locking is
>>>> still rather confused. You have a mutex that you hold while changing
>>>> the value, which is entirely reasonable. But, of the code paths that
>>>> write the MSR, only one takes the mutex.
>>>>
>>>> I think you should consider making a function that just does:
>>>>
>>>> wrmsr(MSR_IA32_UMWAIT_CONTROL, READ_ONCE(umwait_control_cached), 0);
>>>>
>>>> and using it in all the places that update the MSR. The only thing
>>>> that should need the lock is the sysfs code to avoid accidentally
>>>> corrupting the value, but that code should also use WRITE_ONCE to do
>>>> its update.
>>>
>>> Based on the comment, the illustrative CPU online and enable_c02 store
>>> functions would be:
>>>
>>> umwait_cpu_online()
>>> {
>>> wrmsr(MSR_IA32_UMWAIT_CONTROL, READ_ONCE(umwait_control_cached), 0);
>>> return 0;
>>> }
>>>
>>> enable_c02_store()
>>> {
>>> mutex_lock(&umwait_lock);
>>> umwait_control_c02 = (u32)!c02_enabled;
>>> WRITE_ONCE(umwait_control_cached, 2 | get_umwait_control_max_time());
>>> on_each_cpu(umwait_control_msr_update, NULL, 1);
>>> mutex_unlock(&umwait_lock);
>>> }
>>>
>>> Then suppose umwait_control_cached = 100000 initially and only CPU0 is
>>> running. Admin change bit 0 in MSR from 0 to 1 to disable C0.2 and is
>>> onlining CPU1 in the same time:
>>>
>>> 1. On CPU1, read umwait_control_cached to eax as 100000 in
>>> umwait_cpu_online()
>>> 2. On CPU0, write 100001 to umwait_control_cached in enable_c02_store()
>>> 3. On CPU1, wrmsr with eax=100000 in umwaint_cpu_online()
>>> 4. On CPU0, wrmsr with 100001 in enabled_c02_store()
>>>
>>> The result is CPU0 and CPU1 have different MSR values.
>>
>> Yes, but only transiently, because you didn't finish your example.
>>
>> Step 5: enable_c02_store() does on_each_cpu(), and CPU 1 gets updated.
>
> There is no sync on wrmsr on CPU0 and CPU1.
What do you mean by sync?
> So a better sequence to
> describe the problem is changing the order of wrmsr:
>
> 1. On CPU1, read umwait_control_cached to eax as 100000 in
> umwait_cpu_online()
> 2. On CPU0, write 100001 to umwait_control_cached in enable_c02_store()
> 3. On CPU0, wrmsr with 100001 in on_each_cpu() in enabled_c02_store()
> 4. On CPU1, wrmsr with eax=100000 in umwaint_cpu_online()
>
> So CPU1 and CPU0 have different MSR values. This won't be transient.
You are still ignoring the wrmsr on CPU1 due to on_each_cpu().