333cff6c96
Currently the idle injection framework uses the play_idle() function which puts the current CPU in an idle state. The idle state is the deepest one, as specified by the latency constraint when calling the subsequent play_idle_precise() function with the INT_MAX. The idle_injection is used by the cpuidle_cooling device which computes the idle / run duration to mitigate the temperature by injecting idle cycles. The cooling device has no control on the depth of the idle state. Allow finer control of the idle injection mechanism by allowing to specify the latency for the idle state. Thus the cooling device has the ability to have a guarantee on the exit latency of the idle states it is injecting. Acked-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com> Signed-off-by: Daniel Lezcano <daniel.lezcano@linaro.org> Reviewed-by: Amit Kucheria <amit.kucheria@linaro.org> Link: https://lore.kernel.org/r/20200429103644.5492-1-daniel.lezcano@linaro.org
372 lines
11 KiB
C
372 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright 2018 Linaro Limited
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*
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* Author: Daniel Lezcano <daniel.lezcano@linaro.org>
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*
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* The idle injection framework provides a way to force CPUs to enter idle
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* states for a specified fraction of time over a specified period.
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*
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* It relies on the smpboot kthreads feature providing common code for CPU
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* hotplug and thread [un]parking.
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*
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* All of the kthreads used for idle injection are created at init time.
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*
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* Next, the users of the the idle injection framework provide a cpumask via
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* its register function. The kthreads will be synchronized with respect to
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* this cpumask.
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*
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* The idle + run duration is specified via separate helpers and that allows
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* idle injection to be started.
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*
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* The idle injection kthreads will call play_idle() with the idle duration
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* specified as per the above.
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*
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* After all of them have been woken up, a timer is set to start the next idle
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* injection cycle.
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*
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* The timer interrupt handler will wake up the idle injection kthreads for
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* all of the CPUs in the cpumask provided by the user.
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*
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* Idle injection is stopped synchronously and no leftover idle injection
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* kthread activity after its completion is guaranteed.
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*
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* It is up to the user of this framework to provide a lock for higher-level
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* synchronization to prevent race conditions like starting idle injection
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* while unregistering from the framework.
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*/
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#define pr_fmt(fmt) "ii_dev: " fmt
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#include <linux/cpu.h>
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#include <linux/hrtimer.h>
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#include <linux/kthread.h>
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#include <linux/sched.h>
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#include <linux/slab.h>
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#include <linux/smpboot.h>
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#include <uapi/linux/sched/types.h>
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/**
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* struct idle_inject_thread - task on/off switch structure
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* @tsk: task injecting the idle cycles
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* @should_run: whether or not to run the task (for the smpboot kthread API)
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*/
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struct idle_inject_thread {
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struct task_struct *tsk;
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int should_run;
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};
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/**
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* struct idle_inject_device - idle injection data
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* @timer: idle injection period timer
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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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* @cpumask: mask of CPUs affected by idle injection
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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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unsigned long cpumask[];
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};
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static DEFINE_PER_CPU(struct idle_inject_thread, idle_inject_thread);
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static DEFINE_PER_CPU(struct idle_inject_device *, idle_inject_device);
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/**
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* idle_inject_wakeup - Wake up idle injection threads
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* @ii_dev: target idle injection device
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*
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* Every idle injection task associated with the given idle injection device
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* and running on an online CPU will be woken up.
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*/
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static void idle_inject_wakeup(struct idle_inject_device *ii_dev)
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{
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struct idle_inject_thread *iit;
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unsigned int cpu;
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for_each_cpu_and(cpu, to_cpumask(ii_dev->cpumask), cpu_online_mask) {
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iit = per_cpu_ptr(&idle_inject_thread, cpu);
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iit->should_run = 1;
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wake_up_process(iit->tsk);
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}
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}
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/**
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* idle_inject_timer_fn - idle injection timer function
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* @timer: idle injection hrtimer
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*
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* This function is called when the idle injection timer expires. It wakes up
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* idle injection tasks associated with the timer and they, in turn, invoke
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* play_idle() to inject a specified amount of CPU idle time.
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*
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* Return: HRTIMER_RESTART.
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*/
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static enum hrtimer_restart idle_inject_timer_fn(struct hrtimer *timer)
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{
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unsigned int duration_us;
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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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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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}
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/**
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* idle_inject_fn - idle injection work function
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* @cpu: the CPU owning the task
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*
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* This function calls play_idle() to inject a specified amount of CPU idle
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* time.
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*/
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static void idle_inject_fn(unsigned int cpu)
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{
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struct idle_inject_device *ii_dev;
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struct idle_inject_thread *iit;
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ii_dev = per_cpu(idle_inject_device, cpu);
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iit = per_cpu_ptr(&idle_inject_thread, cpu);
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/*
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* Let the smpboot main loop know that the task should not run again.
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*/
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iit->should_run = 0;
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play_idle_precise(READ_ONCE(ii_dev->idle_duration_us) * NSEC_PER_USEC,
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READ_ONCE(ii_dev->latency_us) * NSEC_PER_USEC);
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}
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/**
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* idle_inject_set_duration - idle and run duration update helper
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* @run_duration_us: CPU run time to allow in microseconds
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* @idle_duration_us: CPU idle time to inject in microseconds
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*/
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void idle_inject_set_duration(struct idle_inject_device *ii_dev,
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unsigned int run_duration_us,
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unsigned int idle_duration_us)
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{
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if (run_duration_us && idle_duration_us) {
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WRITE_ONCE(ii_dev->run_duration_us, run_duration_us);
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WRITE_ONCE(ii_dev->idle_duration_us, idle_duration_us);
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}
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}
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/**
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* idle_inject_get_duration - idle and run duration retrieval helper
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* @run_duration_us: memory location to store the current CPU run time
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* @idle_duration_us: memory location to store the current CPU idle time
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*/
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void idle_inject_get_duration(struct idle_inject_device *ii_dev,
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unsigned int *run_duration_us,
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unsigned int *idle_duration_us)
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{
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*run_duration_us = READ_ONCE(ii_dev->run_duration_us);
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*idle_duration_us = READ_ONCE(ii_dev->idle_duration_us);
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}
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/**
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* idle_inject_set_latency - set the maximum latency allowed
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* @latency_us: set the latency requirement for the idle state
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*/
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void idle_inject_set_latency(struct idle_inject_device *ii_dev,
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unsigned int latency_us)
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{
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WRITE_ONCE(ii_dev->latency_us, latency_us);
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}
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/**
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* idle_inject_start - start idle injections
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* @ii_dev: idle injection control device structure
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*
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* The function starts idle injection by first waking up all of the idle
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* injection kthreads associated with @ii_dev to let them inject CPU idle time
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* sets up a timer to start the next idle injection period.
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*
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* Return: -EINVAL if the CPU idle or CPU run time is not set or 0 on success.
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*/
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int idle_inject_start(struct idle_inject_device *ii_dev)
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{
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unsigned int idle_duration_us = READ_ONCE(ii_dev->idle_duration_us);
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unsigned int run_duration_us = READ_ONCE(ii_dev->run_duration_us);
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if (!idle_duration_us || !run_duration_us)
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return -EINVAL;
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pr_debug("Starting injecting idle cycles on CPUs '%*pbl'\n",
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cpumask_pr_args(to_cpumask(ii_dev->cpumask)));
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idle_inject_wakeup(ii_dev);
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hrtimer_start(&ii_dev->timer,
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ns_to_ktime((idle_duration_us + run_duration_us) *
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NSEC_PER_USEC),
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HRTIMER_MODE_REL);
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return 0;
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}
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/**
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* idle_inject_stop - stops idle injections
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* @ii_dev: idle injection control device structure
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*
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* The function stops idle injection and waits for the threads to finish work.
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* If CPU idle time is being injected when this function runs, then it will
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* wait until the end of the cycle.
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*
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* When it returns, there is no more idle injection kthread activity. The
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* kthreads are scheduled out and the periodic timer is off.
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*/
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void idle_inject_stop(struct idle_inject_device *ii_dev)
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{
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struct idle_inject_thread *iit;
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unsigned int cpu;
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pr_debug("Stopping idle injection on CPUs '%*pbl'\n",
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cpumask_pr_args(to_cpumask(ii_dev->cpumask)));
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hrtimer_cancel(&ii_dev->timer);
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/*
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* Stopping idle injection requires all of the idle injection kthreads
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* associated with the given cpumask to be parked and stay that way, so
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* prevent CPUs from going online at this point. Any CPUs going online
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* after the loop below will be covered by clearing the should_run flag
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* that will cause the smpboot main loop to schedule them out.
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*/
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cpu_hotplug_disable();
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/*
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* Iterate over all (online + offline) CPUs here in case one of them
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* goes offline with the should_run flag set so as to prevent its idle
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* injection kthread from running when the CPU goes online again after
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* the ii_dev has been freed.
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*/
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for_each_cpu(cpu, to_cpumask(ii_dev->cpumask)) {
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iit = per_cpu_ptr(&idle_inject_thread, cpu);
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iit->should_run = 0;
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wait_task_inactive(iit->tsk, 0);
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}
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cpu_hotplug_enable();
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}
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/**
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* idle_inject_setup - prepare the current task for idle injection
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* @cpu: not used
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*
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* Called once, this function is in charge of setting the current task's
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* scheduler parameters to make it an RT task.
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*/
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static void idle_inject_setup(unsigned int cpu)
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{
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struct sched_param param = { .sched_priority = MAX_USER_RT_PRIO / 2 };
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sched_setscheduler(current, SCHED_FIFO, ¶m);
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}
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/**
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* idle_inject_should_run - function helper for the smpboot API
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* @cpu: CPU the kthread is running on
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*
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* Return: whether or not the thread can run.
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*/
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static int idle_inject_should_run(unsigned int cpu)
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{
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struct idle_inject_thread *iit =
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per_cpu_ptr(&idle_inject_thread, cpu);
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return iit->should_run;
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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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* @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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struct idle_inject_device *ii_dev;
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int cpu, cpu_rb;
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ii_dev = kzalloc(sizeof(*ii_dev) + cpumask_size(), GFP_KERNEL);
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if (!ii_dev)
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return NULL;
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cpumask_copy(to_cpumask(ii_dev->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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for_each_cpu(cpu, to_cpumask(ii_dev->cpumask)) {
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if (per_cpu(idle_inject_device, cpu)) {
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pr_err("cpu%d is already registered\n", cpu);
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goto out_rollback;
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}
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per_cpu(idle_inject_device, cpu) = ii_dev;
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}
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return ii_dev;
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out_rollback:
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for_each_cpu(cpu_rb, to_cpumask(ii_dev->cpumask)) {
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if (cpu == cpu_rb)
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break;
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per_cpu(idle_inject_device, cpu_rb) = NULL;
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}
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kfree(ii_dev);
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return NULL;
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}
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/**
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* idle_inject_unregister - unregister idle injection control device
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* @ii_dev: idle injection control device to unregister
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*
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* The function stops idle injection for the given control device,
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* unregisters its kthreads and frees memory allocated when that device was
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* created.
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*/
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void idle_inject_unregister(struct idle_inject_device *ii_dev)
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{
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unsigned int cpu;
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idle_inject_stop(ii_dev);
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for_each_cpu(cpu, to_cpumask(ii_dev->cpumask))
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per_cpu(idle_inject_device, cpu) = NULL;
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kfree(ii_dev);
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}
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static struct smp_hotplug_thread idle_inject_threads = {
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.store = &idle_inject_thread.tsk,
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.setup = idle_inject_setup,
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.thread_fn = idle_inject_fn,
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.thread_comm = "idle_inject/%u",
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.thread_should_run = idle_inject_should_run,
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};
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static int __init idle_inject_init(void)
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{
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return smpboot_register_percpu_thread(&idle_inject_threads);
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}
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early_initcall(idle_inject_init);
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