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cpufreq: x86: Make scaling_cur_freq behave more as expected
After commitf8475cef90
"x86: use common aperfmperf_khz_on_cpu() to calculate KHz using APERF/MPERF" the scaling_cur_freq policy attribute in sysfs only behaves as expected on x86 with APERF/MPERF registers available when it is read from at least twice in a row. The value returned by the first read may not be meaningful, because the computations in there use cached values from the previous iteration of aperfmperf_snapshot_khz() which may be stale. To prevent that from happening, modify arch_freq_get_on_cpu() to call aperfmperf_snapshot_khz() twice, with a short delay between these calls, if the previous invocation of aperfmperf_snapshot_khz() was too far back in the past (specifically, more that 1s ago). Also, as pointed out by Doug Smythies, aperf_delta is limited now and the multiplication of it by cpu_khz won't overflow, so simplify the s->khz computations too. Fixes:f8475cef90
"x86: use common aperfmperf_khz_on_cpu() to calculate KHz using APERF/MPERF" Reported-by: Doug Smythies <dsmythies@telus.net> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
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@ -8,20 +8,25 @@
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* This file is licensed under GPLv2.
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*/
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#include <linux/jiffies.h>
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#include <linux/delay.h>
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#include <linux/ktime.h>
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#include <linux/math64.h>
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#include <linux/percpu.h>
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#include <linux/smp.h>
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struct aperfmperf_sample {
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unsigned int khz;
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unsigned long jiffies;
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ktime_t time;
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u64 aperf;
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u64 mperf;
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};
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static DEFINE_PER_CPU(struct aperfmperf_sample, samples);
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#define APERFMPERF_CACHE_THRESHOLD_MS 10
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#define APERFMPERF_REFRESH_DELAY_MS 20
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#define APERFMPERF_STALE_THRESHOLD_MS 1000
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/*
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* aperfmperf_snapshot_khz()
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* On the current CPU, snapshot APERF, MPERF, and jiffies
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@ -33,9 +38,11 @@ static void aperfmperf_snapshot_khz(void *dummy)
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u64 aperf, aperf_delta;
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u64 mperf, mperf_delta;
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struct aperfmperf_sample *s = this_cpu_ptr(&samples);
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ktime_t now = ktime_get();
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s64 time_delta = ktime_ms_delta(now, s->time);
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/* Don't bother re-computing within 10 ms */
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if (time_before(jiffies, s->jiffies + HZ/100))
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/* Don't bother re-computing within the cache threshold time. */
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if (time_delta < APERFMPERF_CACHE_THRESHOLD_MS)
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return;
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rdmsrl(MSR_IA32_APERF, aperf);
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@ -51,22 +58,21 @@ static void aperfmperf_snapshot_khz(void *dummy)
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if (mperf_delta == 0)
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return;
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/*
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* if (cpu_khz * aperf_delta) fits into ULLONG_MAX, then
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* khz = (cpu_khz * aperf_delta) / mperf_delta
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*/
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if (div64_u64(ULLONG_MAX, cpu_khz) > aperf_delta)
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s->khz = div64_u64((cpu_khz * aperf_delta), mperf_delta);
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else /* khz = aperf_delta / (mperf_delta / cpu_khz) */
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s->khz = div64_u64(aperf_delta,
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div64_u64(mperf_delta, cpu_khz));
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s->jiffies = jiffies;
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s->time = now;
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s->aperf = aperf;
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s->mperf = mperf;
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/* If the previous iteration was too long ago, discard it. */
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if (time_delta > APERFMPERF_STALE_THRESHOLD_MS)
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s->khz = 0;
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else
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s->khz = div64_u64((cpu_khz * aperf_delta), mperf_delta);
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}
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unsigned int arch_freq_get_on_cpu(int cpu)
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{
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unsigned int khz;
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if (!cpu_khz)
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return 0;
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@ -74,6 +80,12 @@ unsigned int arch_freq_get_on_cpu(int cpu)
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return 0;
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smp_call_function_single(cpu, aperfmperf_snapshot_khz, NULL, 1);
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khz = per_cpu(samples.khz, cpu);
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if (khz)
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return khz;
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msleep(APERFMPERF_REFRESH_DELAY_MS);
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smp_call_function_single(cpu, aperfmperf_snapshot_khz, NULL, 1);
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return per_cpu(samples.khz, cpu);
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}
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