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authorLinus Torvalds <torvalds@linux-foundation.org>2016-12-13 10:41:53 -0800
committerLinus Torvalds <torvalds@linux-foundation.org>2016-12-13 10:41:53 -0800
commit7b9dc3f75fc8be046e76387a22a21f421ce55b53 (patch)
treedd42312eebdcb5273461b304384d49a7e7e5fa73 /drivers/thermal
parent36869cb93d36269f34800b3384ba7991060a69cf (diff)
parentbbc17bb8a89b3eb31520abf3a9b362d5ee54f908 (diff)
downloadlinux-7b9dc3f75fc8be046e76387a22a21f421ce55b53.tar.bz2
Merge tag 'pm-4.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm
Pull power management updates from Rafael Wysocki: "Again, cpufreq gets more changes than the other parts this time (one new driver, one old driver less, a bunch of enhancements of the existing code, new CPU IDs, fixes, cleanups) There also are some changes in cpuidle (idle injection rework, a couple of new CPU IDs, online/offline rework in intel_idle, fixes and cleanups), in the generic power domains framework (mostly related to supporting power domains containing CPUs), and in the Operating Performance Points (OPP) library (mostly related to supporting devices with multiple voltage regulators) In addition to that, the system sleep state selection interface is modified to make it easier for distributions with unchanged user space to support suspend-to-idle as the default system suspend method, some issues are fixed in the PM core, the latency tolerance PM QoS framework is improved a bit, the Intel RAPL power capping driver is cleaned up and there are some fixes and cleanups in the devfreq subsystem Specifics: - New cpufreq driver for Broadcom STB SoCs and a Device Tree binding for it (Markus Mayer) - Support for ARM Integrator/AP and Integrator/CP in the generic DT cpufreq driver and elimination of the old Integrator cpufreq driver (Linus Walleij) - Support for the zx296718, r8a7743 and r8a7745, Socionext UniPhier, and PXA SoCs in the the generic DT cpufreq driver (Baoyou Xie, Geert Uytterhoeven, Masahiro Yamada, Robert Jarzmik) - cpufreq core fix to eliminate races that may lead to using inactive policy objects and related cleanups (Rafael Wysocki) - cpufreq schedutil governor update to make it use SCHED_FIFO kernel threads (instead of regular workqueues) for doing delayed work (to reduce the response latency in some cases) and related cleanups (Viresh Kumar) - New cpufreq sysfs attribute for resetting statistics (Markus Mayer) - cpufreq governors fixes and cleanups (Chen Yu, Stratos Karafotis, Viresh Kumar) - Support for using generic cpufreq governors in the intel_pstate driver (Rafael Wysocki) - Support for per-logical-CPU P-state limits and the EPP/EPB (Energy Performance Preference/Energy Performance Bias) knobs in the intel_pstate driver (Srinivas Pandruvada) - New CPU ID for Knights Mill in intel_pstate (Piotr Luc) - intel_pstate driver modification to use the P-state selection algorithm based on CPU load on platforms with the system profile in the ACPI tables set to "mobile" (Srinivas Pandruvada) - intel_pstate driver cleanups (Arnd Bergmann, Rafael Wysocki, Srinivas Pandruvada) - cpufreq powernv driver updates including fast switching support (for the schedutil governor), fixes and cleanus (Akshay Adiga, Andrew Donnellan, Denis Kirjanov) - acpi-cpufreq driver rework to switch it over to the new CPU offline/online state machine (Sebastian Andrzej Siewior) - Assorted cleanups in cpufreq drivers (Wei Yongjun, Prashanth Prakash) - Idle injection rework (to make it use the regular idle path instead of a home-grown custom one) and related powerclamp thermal driver updates (Peter Zijlstra, Jacob Pan, Petr Mladek, Sebastian Andrzej Siewior) - New CPU IDs for Atom Z34xx and Knights Mill in intel_idle (Andy Shevchenko, Piotr Luc) - intel_idle driver cleanups and switch over to using the new CPU offline/online state machine (Anna-Maria Gleixner, Sebastian Andrzej Siewior) - cpuidle DT driver update to support suspend-to-idle properly (Sudeep Holla) - cpuidle core cleanups and misc updates (Daniel Lezcano, Pan Bian, Rafael Wysocki) - Preliminary support for power domains including CPUs in the generic power domains (genpd) framework and related DT bindings (Lina Iyer) - Assorted fixes and cleanups in the generic power domains (genpd) framework (Colin Ian King, Dan Carpenter, Geert Uytterhoeven) - Preliminary support for devices with multiple voltage regulators and related fixes and cleanups in the Operating Performance Points (OPP) library (Viresh Kumar, Masahiro Yamada, Stephen Boyd) - System sleep state selection interface rework to make it easier to support suspend-to-idle as the default system suspend method (Rafael Wysocki) - PM core fixes and cleanups, mostly related to the interactions between the system suspend and runtime PM frameworks (Ulf Hansson, Sahitya Tummala, Tony Lindgren) - Latency tolerance PM QoS framework imorovements (Andrew Lutomirski) - New Knights Mill CPU ID for the Intel RAPL power capping driver (Piotr Luc) - Intel RAPL power capping driver fixes, cleanups and switch over to using the new CPU offline/online state machine (Jacob Pan, Thomas Gleixner, Sebastian Andrzej Siewior) - Fixes and cleanups in the exynos-ppmu, exynos-nocp, rk3399_dmc, rockchip-dfi devfreq drivers and the devfreq core (Axel Lin, Chanwoo Choi, Javier Martinez Canillas, MyungJoo Ham, Viresh Kumar) - Fix for false-positive KASAN warnings during resume from ACPI S3 (suspend-to-RAM) on x86 (Josh Poimboeuf) - Memory map verification during resume from hibernation on x86 to ensure a consistent address space layout (Chen Yu) - Wakeup sources debugging enhancement (Xing Wei) - rockchip-io AVS driver cleanup (Shawn Lin)" * tag 'pm-4.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm: (127 commits) devfreq: rk3399_dmc: Don't use OPP structures outside of RCU locks devfreq: rk3399_dmc: Remove dangling rcu_read_unlock() devfreq: exynos: Don't use OPP structures outside of RCU locks Documentation: intel_pstate: Document HWP energy/performance hints cpufreq: intel_pstate: Support for energy performance hints with HWP cpufreq: intel_pstate: Add locking around HWP requests PM / sleep: Print active wakeup sources when blocking on wakeup_count reads PM / core: Fix bug in the error handling of async suspend PM / wakeirq: Fix dedicated wakeirq for drivers not using autosuspend PM / Domains: Fix compatible for domain idle state PM / OPP: Don't WARN on multiple calls to dev_pm_opp_set_regulators() PM / OPP: Allow platform specific custom set_opp() callbacks PM / OPP: Separate out _generic_set_opp() PM / OPP: Add infrastructure to manage multiple regulators PM / OPP: Pass struct dev_pm_opp_supply to _set_opp_voltage() PM / OPP: Manage supply's voltage/current in a separate structure PM / OPP: Don't use OPP structure outside of rcu protected section PM / OPP: Reword binding supporting multiple regulators per device PM / OPP: Fix incorrect cpu-supply property in binding cpuidle: Add a kerneldoc comment to cpuidle_use_deepest_state() ..
Diffstat (limited to 'drivers/thermal')
-rw-r--r--drivers/thermal/intel_powerclamp.c359
1 files changed, 184 insertions, 175 deletions
diff --git a/drivers/thermal/intel_powerclamp.c b/drivers/thermal/intel_powerclamp.c
index 350cb5e22ff3..df64692e9e64 100644
--- a/drivers/thermal/intel_powerclamp.c
+++ b/drivers/thermal/intel_powerclamp.c
@@ -43,7 +43,6 @@
#include <linux/kernel.h>
#include <linux/delay.h>
#include <linux/kthread.h>
-#include <linux/freezer.h>
#include <linux/cpu.h>
#include <linux/thermal.h>
#include <linux/slab.h>
@@ -85,11 +84,26 @@ static unsigned int control_cpu; /* The cpu assigned to collect stat and update
*/
static bool clamping;
+static const struct sched_param sparam = {
+ .sched_priority = MAX_USER_RT_PRIO / 2,
+};
+struct powerclamp_worker_data {
+ struct kthread_worker *worker;
+ struct kthread_work balancing_work;
+ struct kthread_delayed_work idle_injection_work;
+ unsigned int cpu;
+ unsigned int count;
+ unsigned int guard;
+ unsigned int window_size_now;
+ unsigned int target_ratio;
+ unsigned int duration_jiffies;
+ bool clamping;
+};
-static struct task_struct * __percpu *powerclamp_thread;
+static struct powerclamp_worker_data * __percpu worker_data;
static struct thermal_cooling_device *cooling_dev;
static unsigned long *cpu_clamping_mask; /* bit map for tracking per cpu
- * clamping thread
+ * clamping kthread worker
*/
static unsigned int duration;
@@ -261,11 +275,6 @@ static u64 pkg_state_counter(void)
return count;
}
-static void noop_timer(unsigned long foo)
-{
- /* empty... just the fact that we get the interrupt wakes us up */
-}
-
static unsigned int get_compensation(int ratio)
{
unsigned int comp = 0;
@@ -367,103 +376,79 @@ static bool powerclamp_adjust_controls(unsigned int target_ratio,
return set_target_ratio + guard <= current_ratio;
}
-static int clamp_thread(void *arg)
+static void clamp_balancing_func(struct kthread_work *work)
{
- int cpunr = (unsigned long)arg;
- DEFINE_TIMER(wakeup_timer, noop_timer, 0, 0);
- static const struct sched_param param = {
- .sched_priority = MAX_USER_RT_PRIO/2,
- };
- unsigned int count = 0;
- unsigned int target_ratio;
+ struct powerclamp_worker_data *w_data;
+ int sleeptime;
+ unsigned long target_jiffies;
+ unsigned int compensated_ratio;
+ int interval; /* jiffies to sleep for each attempt */
- set_bit(cpunr, cpu_clamping_mask);
- set_freezable();
- init_timer_on_stack(&wakeup_timer);
- sched_setscheduler(current, SCHED_FIFO, &param);
-
- while (true == clamping && !kthread_should_stop() &&
- cpu_online(cpunr)) {
- int sleeptime;
- unsigned long target_jiffies;
- unsigned int guard;
- unsigned int compensated_ratio;
- int interval; /* jiffies to sleep for each attempt */
- unsigned int duration_jiffies = msecs_to_jiffies(duration);
- unsigned int window_size_now;
-
- try_to_freeze();
- /*
- * make sure user selected ratio does not take effect until
- * the next round. adjust target_ratio if user has changed
- * target such that we can converge quickly.
- */
- target_ratio = set_target_ratio;
- guard = 1 + target_ratio/20;
- window_size_now = window_size;
- count++;
-
- /*
- * systems may have different ability to enter package level
- * c-states, thus we need to compensate the injected idle ratio
- * to achieve the actual target reported by the HW.
- */
- compensated_ratio = target_ratio +
- get_compensation(target_ratio);
- if (compensated_ratio <= 0)
- compensated_ratio = 1;
- interval = duration_jiffies * 100 / compensated_ratio;
-
- /* align idle time */
- target_jiffies = roundup(jiffies, interval);
- sleeptime = target_jiffies - jiffies;
- if (sleeptime <= 0)
- sleeptime = 1;
- schedule_timeout_interruptible(sleeptime);
- /*
- * only elected controlling cpu can collect stats and update
- * control parameters.
- */
- if (cpunr == control_cpu && !(count%window_size_now)) {
- should_skip =
- powerclamp_adjust_controls(target_ratio,
- guard, window_size_now);
- smp_mb();
- }
+ w_data = container_of(work, struct powerclamp_worker_data,
+ balancing_work);
- if (should_skip)
- continue;
-
- target_jiffies = jiffies + duration_jiffies;
- mod_timer(&wakeup_timer, target_jiffies);
- if (unlikely(local_softirq_pending()))
- continue;
- /*
- * stop tick sched during idle time, interrupts are still
- * allowed. thus jiffies are updated properly.
- */
- preempt_disable();
- /* mwait until target jiffies is reached */
- while (time_before(jiffies, target_jiffies)) {
- unsigned long ecx = 1;
- unsigned long eax = target_mwait;
-
- /*
- * REVISIT: may call enter_idle() to notify drivers who
- * can save power during cpu idle. same for exit_idle()
- */
- local_touch_nmi();
- stop_critical_timings();
- mwait_idle_with_hints(eax, ecx);
- start_critical_timings();
- atomic_inc(&idle_wakeup_counter);
- }
- preempt_enable();
+ /*
+ * make sure user selected ratio does not take effect until
+ * the next round. adjust target_ratio if user has changed
+ * target such that we can converge quickly.
+ */
+ w_data->target_ratio = READ_ONCE(set_target_ratio);
+ w_data->guard = 1 + w_data->target_ratio / 20;
+ w_data->window_size_now = window_size;
+ w_data->duration_jiffies = msecs_to_jiffies(duration);
+ w_data->count++;
+
+ /*
+ * systems may have different ability to enter package level
+ * c-states, thus we need to compensate the injected idle ratio
+ * to achieve the actual target reported by the HW.
+ */
+ compensated_ratio = w_data->target_ratio +
+ get_compensation(w_data->target_ratio);
+ if (compensated_ratio <= 0)
+ compensated_ratio = 1;
+ interval = w_data->duration_jiffies * 100 / compensated_ratio;
+
+ /* align idle time */
+ target_jiffies = roundup(jiffies, interval);
+ sleeptime = target_jiffies - jiffies;
+ if (sleeptime <= 0)
+ sleeptime = 1;
+
+ if (clamping && w_data->clamping && cpu_online(w_data->cpu))
+ kthread_queue_delayed_work(w_data->worker,
+ &w_data->idle_injection_work,
+ sleeptime);
+}
+
+static void clamp_idle_injection_func(struct kthread_work *work)
+{
+ struct powerclamp_worker_data *w_data;
+
+ w_data = container_of(work, struct powerclamp_worker_data,
+ idle_injection_work.work);
+
+ /*
+ * only elected controlling cpu can collect stats and update
+ * control parameters.
+ */
+ if (w_data->cpu == control_cpu &&
+ !(w_data->count % w_data->window_size_now)) {
+ should_skip =
+ powerclamp_adjust_controls(w_data->target_ratio,
+ w_data->guard,
+ w_data->window_size_now);
+ smp_mb();
}
- del_timer_sync(&wakeup_timer);
- clear_bit(cpunr, cpu_clamping_mask);
- return 0;
+ if (should_skip)
+ goto balance;
+
+ play_idle(jiffies_to_msecs(w_data->duration_jiffies));
+
+balance:
+ if (clamping && w_data->clamping && cpu_online(w_data->cpu))
+ kthread_queue_work(w_data->worker, &w_data->balancing_work);
}
/*
@@ -507,10 +492,60 @@ static void poll_pkg_cstate(struct work_struct *dummy)
schedule_delayed_work(&poll_pkg_cstate_work, HZ);
}
+static void start_power_clamp_worker(unsigned long cpu)
+{
+ struct powerclamp_worker_data *w_data = per_cpu_ptr(worker_data, cpu);
+ struct kthread_worker *worker;
+
+ worker = kthread_create_worker_on_cpu(cpu, 0, "kidle_inject/%ld", cpu);
+ if (IS_ERR(worker))
+ return;
+
+ w_data->worker = worker;
+ w_data->count = 0;
+ w_data->cpu = cpu;
+ w_data->clamping = true;
+ set_bit(cpu, cpu_clamping_mask);
+ sched_setscheduler(worker->task, SCHED_FIFO, &sparam);
+ kthread_init_work(&w_data->balancing_work, clamp_balancing_func);
+ kthread_init_delayed_work(&w_data->idle_injection_work,
+ clamp_idle_injection_func);
+ kthread_queue_work(w_data->worker, &w_data->balancing_work);
+}
+
+static void stop_power_clamp_worker(unsigned long cpu)
+{
+ struct powerclamp_worker_data *w_data = per_cpu_ptr(worker_data, cpu);
+
+ if (!w_data->worker)
+ return;
+
+ w_data->clamping = false;
+ /*
+ * Make sure that all works that get queued after this point see
+ * the clamping disabled. The counter part is not needed because
+ * there is an implicit memory barrier when the queued work
+ * is proceed.
+ */
+ smp_wmb();
+ kthread_cancel_work_sync(&w_data->balancing_work);
+ kthread_cancel_delayed_work_sync(&w_data->idle_injection_work);
+ /*
+ * The balancing work still might be queued here because
+ * the handling of the "clapming" variable, cancel, and queue
+ * operations are not synchronized via a lock. But it is not
+ * a big deal. The balancing work is fast and destroy kthread
+ * will wait for it.
+ */
+ clear_bit(w_data->cpu, cpu_clamping_mask);
+ kthread_destroy_worker(w_data->worker);
+
+ w_data->worker = NULL;
+}
+
static int start_power_clamp(void)
{
unsigned long cpu;
- struct task_struct *thread;
set_target_ratio = clamp(set_target_ratio, 0U, MAX_TARGET_RATIO - 1);
/* prevent cpu hotplug */
@@ -524,22 +559,9 @@ static int start_power_clamp(void)
clamping = true;
schedule_delayed_work(&poll_pkg_cstate_work, 0);
- /* start one thread per online cpu */
+ /* start one kthread worker per online cpu */
for_each_online_cpu(cpu) {
- struct task_struct **p =
- per_cpu_ptr(powerclamp_thread, cpu);
-
- thread = kthread_create_on_node(clamp_thread,
- (void *) cpu,
- cpu_to_node(cpu),
- "kidle_inject/%ld", cpu);
- /* bind to cpu here */
- if (likely(!IS_ERR(thread))) {
- kthread_bind(thread, cpu);
- wake_up_process(thread);
- *p = thread;
- }
-
+ start_power_clamp_worker(cpu);
}
put_online_cpus();
@@ -549,71 +571,49 @@ static int start_power_clamp(void)
static void end_power_clamp(void)
{
int i;
- struct task_struct *thread;
- clamping = false;
/*
- * make clamping visible to other cpus and give per cpu clamping threads
- * sometime to exit, or gets killed later.
+ * Block requeuing in all the kthread workers. They will flush and
+ * stop faster.
*/
- smp_mb();
- msleep(20);
+ clamping = false;
if (bitmap_weight(cpu_clamping_mask, num_possible_cpus())) {
for_each_set_bit(i, cpu_clamping_mask, num_possible_cpus()) {
- pr_debug("clamping thread for cpu %d alive, kill\n", i);
- thread = *per_cpu_ptr(powerclamp_thread, i);
- kthread_stop(thread);
+ pr_debug("clamping worker for cpu %d alive, destroy\n",
+ i);
+ stop_power_clamp_worker(i);
}
}
}
-static int powerclamp_cpu_callback(struct notifier_block *nfb,
- unsigned long action, void *hcpu)
+static int powerclamp_cpu_online(unsigned int cpu)
{
- unsigned long cpu = (unsigned long)hcpu;
- struct task_struct *thread;
- struct task_struct **percpu_thread =
- per_cpu_ptr(powerclamp_thread, cpu);
-
- if (false == clamping)
- goto exit_ok;
-
- switch (action) {
- case CPU_ONLINE:
- thread = kthread_create_on_node(clamp_thread,
- (void *) cpu,
- cpu_to_node(cpu),
- "kidle_inject/%lu", cpu);
- if (likely(!IS_ERR(thread))) {
- kthread_bind(thread, cpu);
- wake_up_process(thread);
- *percpu_thread = thread;
- }
- /* prefer BSP as controlling CPU */
- if (cpu == 0) {
- control_cpu = 0;
- smp_mb();
- }
- break;
- case CPU_DEAD:
- if (test_bit(cpu, cpu_clamping_mask)) {
- pr_err("cpu %lu dead but powerclamping thread is not\n",
- cpu);
- kthread_stop(*percpu_thread);
- }
- if (cpu == control_cpu) {
- control_cpu = smp_processor_id();
- smp_mb();
- }
+ if (clamping == false)
+ return 0;
+ start_power_clamp_worker(cpu);
+ /* prefer BSP as controlling CPU */
+ if (cpu == 0) {
+ control_cpu = 0;
+ smp_mb();
}
-
-exit_ok:
- return NOTIFY_OK;
+ return 0;
}
-static struct notifier_block powerclamp_cpu_notifier = {
- .notifier_call = powerclamp_cpu_callback,
-};
+static int powerclamp_cpu_predown(unsigned int cpu)
+{
+ if (clamping == false)
+ return 0;
+
+ stop_power_clamp_worker(cpu);
+ if (cpu != control_cpu)
+ return 0;
+
+ control_cpu = cpumask_first(cpu_online_mask);
+ if (control_cpu == cpu)
+ control_cpu = cpumask_next(cpu, cpu_online_mask);
+ smp_mb();
+ return 0;
+}
static int powerclamp_get_max_state(struct thermal_cooling_device *cdev,
unsigned long *state)
@@ -741,6 +741,8 @@ file_error:
debugfs_remove_recursive(debug_dir);
}
+static enum cpuhp_state hp_state;
+
static int __init powerclamp_init(void)
{
int retval;
@@ -758,10 +760,17 @@ static int __init powerclamp_init(void)
/* set default limit, maybe adjusted during runtime based on feedback */
window_size = 2;
- register_hotcpu_notifier(&powerclamp_cpu_notifier);
+ retval = cpuhp_setup_state_nocalls(CPUHP_AP_ONLINE_DYN,
+ "thermal/intel_powerclamp:online",
+ powerclamp_cpu_online,
+ powerclamp_cpu_predown);
+ if (retval < 0)
+ goto exit_free;
+
+ hp_state = retval;
- powerclamp_thread = alloc_percpu(struct task_struct *);
- if (!powerclamp_thread) {
+ worker_data = alloc_percpu(struct powerclamp_worker_data);
+ if (!worker_data) {
retval = -ENOMEM;
goto exit_unregister;
}
@@ -781,9 +790,9 @@ static int __init powerclamp_init(void)
return 0;
exit_free_thread:
- free_percpu(powerclamp_thread);
+ free_percpu(worker_data);
exit_unregister:
- unregister_hotcpu_notifier(&powerclamp_cpu_notifier);
+ cpuhp_remove_state_nocalls(hp_state);
exit_free:
kfree(cpu_clamping_mask);
return retval;
@@ -792,9 +801,9 @@ module_init(powerclamp_init);
static void __exit powerclamp_exit(void)
{
- unregister_hotcpu_notifier(&powerclamp_cpu_notifier);
end_power_clamp();
- free_percpu(powerclamp_thread);
+ cpuhp_remove_state_nocalls(hp_state);
+ free_percpu(worker_data);
thermal_cooling_device_unregister(cooling_dev);
kfree(cpu_clamping_mask);