cpuidle: Change struct menu_device field types
Field predicted_us value can never exceed expected_us value, but it has a potentially larger type. As there is no need for additional 32 bits of zeroes on 32 bit plaforms, change the type of predicted_us to match the type of expected_us. Field correction_factor is used to store a value that cannot exceed the product of RESOLUTION and DECAY (default 1024*8 = 8192). The constants cannot in practice be incremented to such values, that they'd overflow unsigned int even on 32 bit systems, so the type is changed to avoid unnecessary 64 bit arithmetic on 32 bit systems. One multiplication of (now) 32 bit values needs an added cast to avoid truncation of the result and has been added. In order to avoid another multiplication from 32 bit domain to 64 bit domain, the new correction_factor calculation has been changed from new = old * (DECAY-1) / DECAY to new = old - old / DECAY, which with infinite precision would yeild exactly the same result, but now changes the direction of rounding. The impact is not significant as the maximum accumulated difference cannot exceed the value of DECAY, which is relatively small compared to product of RESOLUTION and DECAY (8 / 8192). Signed-off-by: Tuukka Tikkanen <tuukka.tikkanen@linaro.org> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
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@ -123,10 +123,10 @@ struct menu_device {
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int needs_update;
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unsigned int expected_us;
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u64 predicted_us;
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unsigned int predicted_us;
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unsigned int exit_us;
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unsigned int bucket;
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u64 correction_factor[BUCKETS];
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unsigned int correction_factor[BUCKETS];
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unsigned int intervals[INTERVALS];
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int interval_ptr;
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};
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@ -321,8 +321,13 @@ static int menu_select(struct cpuidle_driver *drv, struct cpuidle_device *dev)
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if (data->correction_factor[data->bucket] == 0)
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data->correction_factor[data->bucket] = RESOLUTION * DECAY;
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/* Make sure to round up for half microseconds */
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data->predicted_us = div_round64(data->expected_us * data->correction_factor[data->bucket],
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/*
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* Force the result of multiplication to be 64 bits even if both
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* operands are 32 bits.
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* Make sure to round up for half microseconds.
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*/
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data->predicted_us = div_round64((uint64_t)data->expected_us *
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data->correction_factor[data->bucket],
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RESOLUTION * DECAY);
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get_typical_interval(data);
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@ -388,7 +393,7 @@ static void menu_update(struct cpuidle_driver *drv, struct cpuidle_device *dev)
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unsigned int last_idle_us = cpuidle_get_last_residency(dev);
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struct cpuidle_state *target = &drv->states[last_idx];
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unsigned int measured_us;
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u64 new_factor;
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unsigned int new_factor;
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/*
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* Ugh, this idle state doesn't support residency measurements, so we
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@ -409,10 +414,9 @@ static void menu_update(struct cpuidle_driver *drv, struct cpuidle_device *dev)
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measured_us -= data->exit_us;
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/* update our correction ratio */
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new_factor = data->correction_factor[data->bucket]
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* (DECAY - 1) / DECAY;
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/* Update our correction ratio */
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new_factor = data->correction_factor[data->bucket];
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new_factor -= new_factor / DECAY;
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if (data->expected_us > 0 && measured_us < MAX_INTERESTING)
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new_factor += RESOLUTION * measured_us / data->expected_us;
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@ -425,9 +429,11 @@ static void menu_update(struct cpuidle_driver *drv, struct cpuidle_device *dev)
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/*
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* We don't want 0 as factor; we always want at least
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* a tiny bit of estimated time.
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* a tiny bit of estimated time. Fortunately, due to rounding,
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* new_factor will stay nonzero regardless of measured_us values
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* and the compiler can eliminate this test as long as DECAY > 1.
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*/
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if (new_factor == 0)
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if (DECAY == 1 && unlikely(new_factor == 0))
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new_factor = 1;
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data->correction_factor[data->bucket] = new_factor;
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