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powercap: idle_inject: Add update callback
The powercap/idle_inject core uses play_idle_precise() to inject idle time. But play_idle_precise() can't ensure that the CPU is fully idle for the specified duration because of wakeups due to interrupts. To compensate for the reduced idle time due to these wakes, the caller can adjust requested idle time for the next cycle. The goal of idle injection is to keep system at some idle percent on average, so this is fine to overshoot or undershoot instantaneous idle times. The idle inject core provides an interface idle_inject_set_duration() to set idle and runtime duration. Some architectures provide interface to get actual idle time observed by the hardware. So, the effective idle percent can be adjusted using the hardware feedback. For example, Intel CPUs provides package idle counters, which is currently used by Intel powerclamp driver to readjust runtime duration. When the caller's desired idle time over a period is less or greater than the actual CPU idle time observed by the hardware, caller can readjust idle and runtime duration for the next cycle. The only way this can be done currently is by monitoring hardware idle time from a different software thread and readjust idle and runtime duration using idle_inject_set_duration(). This can be avoided by adding a callback which callers can register and readjust from this callback function. Add a capability to register an optional update() callback, which can be called from the idle inject core before waking up CPUs for idle injection. This callback can be registered via a new interface: idle_inject_register_full(). During this process of constantly adjusting idle and runtime duration there can be some cases where actual idle time is more than the desired. In this case idle inject can be skipped for a cycle. If update() callback returns false, then the idle inject core skips waking up CPUs for the idle injection. Signed-off-by: Srinivas Pandruvada <srinivas.pandruvada@linux.intel.com> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
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@ -63,13 +63,29 @@ struct idle_inject_thread {
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* @idle_duration_us: duration of CPU idle time to inject
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* @run_duration_us: duration of CPU run time to allow
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* @latency_us: max allowed latency
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* @update: Optional callback deciding whether or not to skip idle
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* injection in the given cycle.
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* @cpumask: mask of CPUs affected by idle injection
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*
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* This structure is used to define per instance idle inject device data. Each
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* instance has an idle duration, a run duration and mask of CPUs to inject
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* idle.
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*
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* Actual CPU idle time is injected by calling kernel scheduler interface
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* play_idle_precise(). There is one optional callback that can be registered
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* by calling idle_inject_register_full():
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*
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* update() - This callback is invoked just before waking up CPUs to inject
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* idle. If it returns false, CPUs are not woken up to inject idle in the given
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* cycle. It also allows the caller to readjust the idle and run duration by
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* calling idle_inject_set_duration() for the next cycle.
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*/
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struct idle_inject_device {
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struct hrtimer timer;
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unsigned int idle_duration_us;
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unsigned int run_duration_us;
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unsigned int latency_us;
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bool (*update)(void);
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unsigned long cpumask[];
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};
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@ -111,11 +127,12 @@ static enum hrtimer_restart idle_inject_timer_fn(struct hrtimer *timer)
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struct idle_inject_device *ii_dev =
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container_of(timer, struct idle_inject_device, timer);
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if (!ii_dev->update || (ii_dev->update && ii_dev->update()))
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idle_inject_wakeup(ii_dev);
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duration_us = READ_ONCE(ii_dev->run_duration_us);
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duration_us += READ_ONCE(ii_dev->idle_duration_us);
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idle_inject_wakeup(ii_dev);
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hrtimer_forward_now(timer, ns_to_ktime(duration_us * NSEC_PER_USEC));
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return HRTIMER_RESTART;
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@ -295,17 +312,22 @@ static int idle_inject_should_run(unsigned int cpu)
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}
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/**
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* idle_inject_register - initialize idle injection on a set of CPUs
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* idle_inject_register_full - initialize idle injection on a set of CPUs
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* @cpumask: CPUs to be affected by idle injection
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* @update: This callback is called just before waking up CPUs to inject
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* idle
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*
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* This function creates an idle injection control device structure for the
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* given set of CPUs and initializes the timer associated with it. It does not
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* start any injection cycles.
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* given set of CPUs and initializes the timer associated with it. This
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* function also allows to register update()callback.
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* It does not start any injection cycles.
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*
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* Return: NULL if memory allocation fails, idle injection control device
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* pointer on success.
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*/
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struct idle_inject_device *idle_inject_register(struct cpumask *cpumask)
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struct idle_inject_device *idle_inject_register_full(struct cpumask *cpumask,
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bool (*update)(void))
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{
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struct idle_inject_device *ii_dev;
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int cpu, cpu_rb;
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@ -318,6 +340,7 @@ struct idle_inject_device *idle_inject_register(struct cpumask *cpumask)
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hrtimer_init(&ii_dev->timer, CLOCK_MONOTONIC, HRTIMER_MODE_REL);
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ii_dev->timer.function = idle_inject_timer_fn;
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ii_dev->latency_us = UINT_MAX;
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ii_dev->update = update;
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for_each_cpu(cpu, to_cpumask(ii_dev->cpumask)) {
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@ -342,6 +365,23 @@ out_rollback:
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return NULL;
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}
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EXPORT_SYMBOL_NS_GPL(idle_inject_register_full, IDLE_INJECT);
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/**
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* idle_inject_register - initialize idle injection on a set of CPUs
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* @cpumask: CPUs to be affected by idle injection
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*
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* This function creates an idle injection control device structure for the
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* given set of CPUs and initializes the timer associated with it. It does not
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* start any injection cycles.
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*
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* Return: NULL if memory allocation fails, idle injection control device
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* pointer on success.
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*/
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struct idle_inject_device *idle_inject_register(struct cpumask *cpumask)
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{
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return idle_inject_register_full(cpumask, NULL);
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}
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EXPORT_SYMBOL_NS_GPL(idle_inject_register, IDLE_INJECT);
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/**
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@ -13,6 +13,9 @@ struct idle_inject_device;
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struct idle_inject_device *idle_inject_register(struct cpumask *cpumask);
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struct idle_inject_device *idle_inject_register_full(struct cpumask *cpumask,
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bool (*update)(void));
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void idle_inject_unregister(struct idle_inject_device *ii_dev);
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int idle_inject_start(struct idle_inject_device *ii_dev);
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