diff options
Diffstat (limited to 'drivers/cpuidle/governors/teo.c')
| -rw-r--r-- | drivers/cpuidle/governors/teo.c | 235 |
1 files changed, 151 insertions, 84 deletions
diff --git a/drivers/cpuidle/governors/teo.c b/drivers/cpuidle/governors/teo.c index 987fc5f3997d..7244f71c59c5 100644 --- a/drivers/cpuidle/governors/teo.c +++ b/drivers/cpuidle/governors/teo.c @@ -140,6 +140,8 @@ #include <linux/sched/topology.h> #include <linux/tick.h> +#include "gov.h" + /* * The number of bits to shift the CPU's capacity by in order to determine * the utilized threshold. @@ -152,7 +154,6 @@ */ #define UTIL_THRESHOLD_SHIFT 6 - /* * The PULSE value is added to metrics when they grow and the DECAY_SHIFT value * is used for decreasing metrics on a regular basis. @@ -186,8 +187,8 @@ struct teo_bin { * @total: Grand total of the "intercepts" and "hits" metrics for all bins. * @next_recent_idx: Index of the next @recent_idx entry to update. * @recent_idx: Indices of bins corresponding to recent "intercepts". + * @tick_hits: Number of "hits" after TICK_NSEC. * @util_threshold: Threshold above which the CPU is considered utilized - * @utilized: Whether the last sleep on the CPU happened while utilized */ struct teo_cpu { s64 time_span_ns; @@ -196,8 +197,8 @@ struct teo_cpu { unsigned int total; int next_recent_idx; int recent_idx[NR_RECENT]; + unsigned int tick_hits; unsigned long util_threshold; - bool utilized; }; static DEFINE_PER_CPU(struct teo_cpu, teo_cpus); @@ -228,6 +229,7 @@ static void teo_update(struct cpuidle_driver *drv, struct cpuidle_device *dev) { struct teo_cpu *cpu_data = per_cpu_ptr(&teo_cpus, dev->cpu); int i, idx_timer = 0, idx_duration = 0; + s64 target_residency_ns; u64 measured_ns; if (cpu_data->time_span_ns >= cpu_data->sleep_length_ns) { @@ -268,7 +270,6 @@ static void teo_update(struct cpuidle_driver *drv, struct cpuidle_device *dev) * fall into. */ for (i = 0; i < drv->state_count; i++) { - s64 target_residency_ns = drv->states[i].target_residency_ns; struct teo_bin *bin = &cpu_data->state_bins[i]; bin->hits -= bin->hits >> DECAY_SHIFT; @@ -276,6 +277,8 @@ static void teo_update(struct cpuidle_driver *drv, struct cpuidle_device *dev) cpu_data->total += bin->hits + bin->intercepts; + target_residency_ns = drv->states[i].target_residency_ns; + if (target_residency_ns <= cpu_data->sleep_length_ns) { idx_timer = i; if (target_residency_ns <= measured_ns) @@ -291,6 +294,26 @@ static void teo_update(struct cpuidle_driver *drv, struct cpuidle_device *dev) cpu_data->state_bins[cpu_data->recent_idx[i]].recent--; /* + * If the deepest state's target residency is below the tick length, + * make a record of it to help teo_select() decide whether or not + * to stop the tick. This effectively adds an extra hits-only bin + * beyond the last state-related one. + */ + if (target_residency_ns < TICK_NSEC) { + cpu_data->tick_hits -= cpu_data->tick_hits >> DECAY_SHIFT; + + cpu_data->total += cpu_data->tick_hits; + + if (TICK_NSEC <= cpu_data->sleep_length_ns) { + idx_timer = drv->state_count; + if (TICK_NSEC <= measured_ns) { + cpu_data->tick_hits += PULSE; + goto end; + } + } + } + + /* * If the measured idle duration falls into the same bin as the sleep * length, this is a "hit", so update the "hits" metric for that bin. * Otherwise, update the "intercepts" metric for the bin fallen into by @@ -305,18 +328,14 @@ static void teo_update(struct cpuidle_driver *drv, struct cpuidle_device *dev) cpu_data->recent_idx[i] = idx_duration; } +end: cpu_data->total += PULSE; } -static bool teo_time_ok(u64 interval_ns) +static bool teo_state_ok(int i, struct cpuidle_driver *drv) { - return !tick_nohz_tick_stopped() || interval_ns >= TICK_NSEC; -} - -static s64 teo_middle_of_bin(int idx, struct cpuidle_driver *drv) -{ - return (drv->states[idx].target_residency_ns + - drv->states[idx+1].target_residency_ns) / 2; + return !tick_nohz_tick_stopped() || + drv->states[i].target_residency_ns >= TICK_NSEC; } /** @@ -356,6 +375,8 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, { struct teo_cpu *cpu_data = per_cpu_ptr(&teo_cpus, dev->cpu); s64 latency_req = cpuidle_governor_latency_req(dev->cpu); + ktime_t delta_tick = TICK_NSEC / 2; + unsigned int tick_intercept_sum = 0; unsigned int idx_intercept_sum = 0; unsigned int intercept_sum = 0; unsigned int idx_recent_sum = 0; @@ -365,7 +386,7 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, int constraint_idx = 0; int idx0 = 0, idx = -1; bool alt_intercepts, alt_recent; - ktime_t delta_tick; + bool cpu_utilized; s64 duration_ns; int i; @@ -375,44 +396,48 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, } cpu_data->time_span_ns = local_clock(); - - duration_ns = tick_nohz_get_sleep_length(&delta_tick); - cpu_data->sleep_length_ns = duration_ns; + /* + * Set the expected sleep length to infinity in case of an early + * return. + */ + cpu_data->sleep_length_ns = KTIME_MAX; /* Check if there is any choice in the first place. */ if (drv->state_count < 2) { idx = 0; - goto end; + goto out_tick; } - if (!dev->states_usage[0].disable) { + + if (!dev->states_usage[0].disable) idx = 0; - if (drv->states[1].target_residency_ns > duration_ns) - goto end; - } - cpu_data->utilized = teo_cpu_is_utilized(dev->cpu, cpu_data); + cpu_utilized = teo_cpu_is_utilized(dev->cpu, cpu_data); /* * If the CPU is being utilized over the threshold and there are only 2 * states to choose from, the metrics need not be considered, so choose * the shallowest non-polling state and exit. */ - if (drv->state_count < 3 && cpu_data->utilized) { - for (i = 0; i < drv->state_count; ++i) { - if (!dev->states_usage[i].disable && - !(drv->states[i].flags & CPUIDLE_FLAG_POLLING)) { - idx = i; - goto end; - } + if (drv->state_count < 3 && cpu_utilized) { + /* + * If state 0 is enabled and it is not a polling one, select it + * right away unless the scheduler tick has been stopped, in + * which case care needs to be taken to leave the CPU in a deep + * enough state in case it is not woken up any time soon after + * all. If state 1 is disabled, though, state 0 must be used + * anyway. + */ + if ((!idx && !(drv->states[0].flags & CPUIDLE_FLAG_POLLING) && + teo_state_ok(0, drv)) || dev->states_usage[1].disable) { + idx = 0; + goto out_tick; } + /* Assume that state 1 is not a polling one and use it. */ + idx = 1; + duration_ns = drv->states[1].target_residency_ns; + goto end; } - /* - * Find the deepest idle state whose target residency does not exceed - * the current sleep length and the deepest idle state not deeper than - * the former whose exit latency does not exceed the current latency - * constraint. Compute the sums of metrics for early wakeup pattern - * detection. - */ + /* Compute the sums of metrics for early wakeup pattern detection. */ for (i = 1; i < drv->state_count; i++) { struct teo_bin *prev_bin = &cpu_data->state_bins[i-1]; struct cpuidle_state *s = &drv->states[i]; @@ -428,19 +453,15 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, if (dev->states_usage[i].disable) continue; - if (idx < 0) { - idx = i; /* first enabled state */ - idx0 = i; - } - - if (s->target_residency_ns > duration_ns) - break; + if (idx < 0) + idx0 = i; /* first enabled state */ idx = i; if (s->exit_latency_ns <= latency_req) constraint_idx = i; + /* Save the sums for the current state. */ idx_intercept_sum = intercept_sum; idx_hit_sum = hit_sum; idx_recent_sum = recent_sum; @@ -449,11 +470,21 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, /* Avoid unnecessary overhead. */ if (idx < 0) { idx = 0; /* No states enabled, must use 0. */ - goto end; - } else if (idx == idx0) { + goto out_tick; + } + + if (idx == idx0) { + /* + * Only one idle state is enabled, so use it, but do not + * allow the tick to be stopped it is shallow enough. + */ + duration_ns = drv->states[idx].target_residency_ns; goto end; } + tick_intercept_sum = intercept_sum + + cpu_data->state_bins[drv->state_count-1].intercepts; + /* * If the sum of the intercepts metric for all of the idle states * shallower than the current candidate one (idx) is greater than the @@ -461,13 +492,11 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, * all of the deeper states, or the sum of the numbers of recent * intercepts over all of the states shallower than the candidate one * is greater than a half of the number of recent events taken into - * account, the CPU is likely to wake up early, so find an alternative - * idle state to select. + * account, a shallower idle state is likely to be a better choice. */ alt_intercepts = 2 * idx_intercept_sum > cpu_data->total - idx_hit_sum; alt_recent = idx_recent_sum > NR_RECENT / 2; if (alt_recent || alt_intercepts) { - s64 first_suitable_span_ns = duration_ns; int first_suitable_idx = idx; /* @@ -476,44 +505,39 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, * cases (both with respect to intercepts overall and with * respect to the recent intercepts only) in the past. * - * Take the possible latency constraint and duration limitation - * present if the tick has been stopped already into account. + * Take the possible duration limitation present if the tick + * has been stopped already into account. */ intercept_sum = 0; recent_sum = 0; for (i = idx - 1; i >= 0; i--) { struct teo_bin *bin = &cpu_data->state_bins[i]; - s64 span_ns; intercept_sum += bin->intercepts; recent_sum += bin->recent; - span_ns = teo_middle_of_bin(i, drv); - if ((!alt_recent || 2 * recent_sum > idx_recent_sum) && (!alt_intercepts || 2 * intercept_sum > idx_intercept_sum)) { - if (teo_time_ok(span_ns) && - !dev->states_usage[i].disable) { + /* + * Use the current state unless it is too + * shallow or disabled, in which case take the + * first enabled state that is deep enough. + */ + if (teo_state_ok(i, drv) && + !dev->states_usage[i].disable) idx = i; - duration_ns = span_ns; - } else { - /* - * The current state is too shallow or - * disabled, so take the first enabled - * deeper state with suitable time span. - */ + else idx = first_suitable_idx; - duration_ns = first_suitable_span_ns; - } + break; } if (dev->states_usage[i].disable) continue; - if (!teo_time_ok(span_ns)) { + if (!teo_state_ok(i, drv)) { /* * The current state is too shallow, but if an * alternative candidate state has been found, @@ -525,7 +549,6 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, break; } - first_suitable_span_ns = span_ns; first_suitable_idx = i; } } @@ -539,31 +562,75 @@ static int teo_select(struct cpuidle_driver *drv, struct cpuidle_device *dev, /* * If the CPU is being utilized over the threshold, choose a shallower - * non-polling state to improve latency + * non-polling state to improve latency, unless the scheduler tick has + * been stopped already and the shallower state's target residency is + * not sufficiently large. */ - if (cpu_data->utilized) - idx = teo_find_shallower_state(drv, dev, idx, duration_ns, true); + if (cpu_utilized) { + i = teo_find_shallower_state(drv, dev, idx, KTIME_MAX, true); + if (teo_state_ok(i, drv)) + idx = i; + } -end: /* - * Don't stop the tick if the selected state is a polling one or if the - * expected idle duration is shorter than the tick period length. + * Skip the timers check if state 0 is the current candidate one, + * because an immediate non-timer wakeup is expected in that case. */ - if (((drv->states[idx].flags & CPUIDLE_FLAG_POLLING) || - duration_ns < TICK_NSEC) && !tick_nohz_tick_stopped()) { - *stop_tick = false; + if (!idx) + goto out_tick; - /* - * The tick is not going to be stopped, so if the target - * residency of the state to be returned is not within the time - * till the closest timer including the tick, try to correct - * that. - */ - if (idx > idx0 && - drv->states[idx].target_residency_ns > delta_tick) - idx = teo_find_shallower_state(drv, dev, idx, delta_tick, false); + /* + * If state 0 is a polling one, check if the target residency of + * the current candidate state is low enough and skip the timers + * check in that case too. + */ + if ((drv->states[0].flags & CPUIDLE_FLAG_POLLING) && + drv->states[idx].target_residency_ns < RESIDENCY_THRESHOLD_NS) + goto out_tick; + + duration_ns = tick_nohz_get_sleep_length(&delta_tick); + cpu_data->sleep_length_ns = duration_ns; + + /* + * If the closest expected timer is before the terget residency of the + * candidate state, a shallower one needs to be found. + */ + if (drv->states[idx].target_residency_ns > duration_ns) { + i = teo_find_shallower_state(drv, dev, idx, duration_ns, false); + if (teo_state_ok(i, drv)) + idx = i; } + /* + * If the selected state's target residency is below the tick length + * and intercepts occurring before the tick length are the majority of + * total wakeup events, do not stop the tick. + */ + if (drv->states[idx].target_residency_ns < TICK_NSEC && + tick_intercept_sum > cpu_data->total / 2 + cpu_data->total / 8) + duration_ns = TICK_NSEC / 2; + +end: + /* + * Allow the tick to be stopped unless the selected state is a polling + * one or the expected idle duration is shorter than the tick period + * length. + */ + if ((!(drv->states[idx].flags & CPUIDLE_FLAG_POLLING) && + duration_ns >= TICK_NSEC) || tick_nohz_tick_stopped()) + return idx; + + /* + * The tick is not going to be stopped, so if the target residency of + * the state to be returned is not within the time till the closest + * timer including the tick, try to correct that. + */ + if (idx > idx0 && + drv->states[idx].target_residency_ns > delta_tick) + idx = teo_find_shallower_state(drv, dev, idx, delta_tick, false); + +out_tick: + *stop_tick = false; return idx; } |