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The init table section is freed after the system booted. However the next changes will make per module the DTPM description, so the table won't be accessible when the module is loaded. In order to fix that, we should move the table to the data section where there are very few entries and that makes strange to add it there. The main goal of the table was to keep self-encapsulated code and we can keep it almost as it by using an array instead. Suggested-by: Ulf Hansson <ulf.hansson@linaro.org> Reviewed-by: Ulf Hansson <ulf.hansson@linaro.org> Signed-off-by: Daniel Lezcano <daniel.lezcano@linaro.org> Link: https://lore.kernel.org/r/20220128163537.212248-2-daniel.lezcano@linaro.org
276 lines
6.7 KiB
C
276 lines
6.7 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Copyright 2020 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 DTPM CPU is based on the energy model. It hooks the CPU in the
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* DTPM tree which in turns update the power number by propagating the
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* power number from the CPU energy model information to the parents.
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*
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* The association between the power and the performance state, allows
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* to set the power of the CPU at the OPP granularity.
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*
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* The CPU hotplug is supported and the power numbers will be updated
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* if a CPU is hot plugged / unplugged.
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*/
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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
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#include <linux/cpumask.h>
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#include <linux/cpufreq.h>
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#include <linux/cpuhotplug.h>
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#include <linux/dtpm.h>
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#include <linux/energy_model.h>
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#include <linux/pm_qos.h>
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#include <linux/slab.h>
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#include <linux/units.h>
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struct dtpm_cpu {
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struct dtpm dtpm;
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struct freq_qos_request qos_req;
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int cpu;
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};
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static DEFINE_PER_CPU(struct dtpm_cpu *, dtpm_per_cpu);
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static struct dtpm_cpu *to_dtpm_cpu(struct dtpm *dtpm)
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{
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return container_of(dtpm, struct dtpm_cpu, dtpm);
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}
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static u64 set_pd_power_limit(struct dtpm *dtpm, u64 power_limit)
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{
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struct dtpm_cpu *dtpm_cpu = to_dtpm_cpu(dtpm);
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struct em_perf_domain *pd = em_cpu_get(dtpm_cpu->cpu);
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struct cpumask cpus;
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unsigned long freq;
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u64 power;
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int i, nr_cpus;
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cpumask_and(&cpus, cpu_online_mask, to_cpumask(pd->cpus));
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nr_cpus = cpumask_weight(&cpus);
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for (i = 0; i < pd->nr_perf_states; i++) {
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power = pd->table[i].power * MICROWATT_PER_MILLIWATT * nr_cpus;
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if (power > power_limit)
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break;
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}
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freq = pd->table[i - 1].frequency;
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freq_qos_update_request(&dtpm_cpu->qos_req, freq);
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power_limit = pd->table[i - 1].power *
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MICROWATT_PER_MILLIWATT * nr_cpus;
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return power_limit;
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}
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static u64 scale_pd_power_uw(struct cpumask *pd_mask, u64 power)
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{
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unsigned long max = 0, sum_util = 0;
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int cpu;
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for_each_cpu_and(cpu, pd_mask, cpu_online_mask) {
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/*
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* The capacity is the same for all CPUs belonging to
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* the same perf domain, so a single call to
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* arch_scale_cpu_capacity() is enough. However, we
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* need the CPU parameter to be initialized by the
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* loop, so the call ends up in this block.
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*
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* We can initialize 'max' with a cpumask_first() call
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* before the loop but the bits computation is not
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* worth given the arch_scale_cpu_capacity() just
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* returns a value where the resulting assembly code
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* will be optimized by the compiler.
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*/
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max = arch_scale_cpu_capacity(cpu);
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sum_util += sched_cpu_util(cpu, max);
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}
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/*
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* In the improbable case where all the CPUs of the perf
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* domain are offline, 'max' will be zero and will lead to an
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* illegal operation with a zero division.
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*/
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return max ? (power * ((sum_util << 10) / max)) >> 10 : 0;
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}
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static u64 get_pd_power_uw(struct dtpm *dtpm)
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{
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struct dtpm_cpu *dtpm_cpu = to_dtpm_cpu(dtpm);
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struct em_perf_domain *pd;
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struct cpumask *pd_mask;
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unsigned long freq;
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int i;
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pd = em_cpu_get(dtpm_cpu->cpu);
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pd_mask = em_span_cpus(pd);
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freq = cpufreq_quick_get(dtpm_cpu->cpu);
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for (i = 0; i < pd->nr_perf_states; i++) {
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if (pd->table[i].frequency < freq)
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continue;
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return scale_pd_power_uw(pd_mask, pd->table[i].power *
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MICROWATT_PER_MILLIWATT);
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}
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return 0;
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}
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static int update_pd_power_uw(struct dtpm *dtpm)
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{
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struct dtpm_cpu *dtpm_cpu = to_dtpm_cpu(dtpm);
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struct em_perf_domain *em = em_cpu_get(dtpm_cpu->cpu);
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struct cpumask cpus;
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int nr_cpus;
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cpumask_and(&cpus, cpu_online_mask, to_cpumask(em->cpus));
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nr_cpus = cpumask_weight(&cpus);
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dtpm->power_min = em->table[0].power;
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dtpm->power_min *= MICROWATT_PER_MILLIWATT;
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dtpm->power_min *= nr_cpus;
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dtpm->power_max = em->table[em->nr_perf_states - 1].power;
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dtpm->power_max *= MICROWATT_PER_MILLIWATT;
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dtpm->power_max *= nr_cpus;
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return 0;
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}
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static void pd_release(struct dtpm *dtpm)
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{
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struct dtpm_cpu *dtpm_cpu = to_dtpm_cpu(dtpm);
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if (freq_qos_request_active(&dtpm_cpu->qos_req))
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freq_qos_remove_request(&dtpm_cpu->qos_req);
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kfree(dtpm_cpu);
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}
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static struct dtpm_ops dtpm_ops = {
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.set_power_uw = set_pd_power_limit,
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.get_power_uw = get_pd_power_uw,
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.update_power_uw = update_pd_power_uw,
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.release = pd_release,
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};
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static int cpuhp_dtpm_cpu_offline(unsigned int cpu)
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{
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struct dtpm_cpu *dtpm_cpu;
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dtpm_cpu = per_cpu(dtpm_per_cpu, cpu);
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if (dtpm_cpu)
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dtpm_update_power(&dtpm_cpu->dtpm);
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return 0;
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}
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static int cpuhp_dtpm_cpu_online(unsigned int cpu)
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{
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struct dtpm_cpu *dtpm_cpu;
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struct cpufreq_policy *policy;
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struct em_perf_domain *pd;
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char name[CPUFREQ_NAME_LEN];
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int ret = -ENOMEM;
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policy = cpufreq_cpu_get(cpu);
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if (!policy)
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return 0;
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pd = em_cpu_get(cpu);
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if (!pd)
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return -EINVAL;
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dtpm_cpu = per_cpu(dtpm_per_cpu, cpu);
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if (dtpm_cpu)
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return dtpm_update_power(&dtpm_cpu->dtpm);
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dtpm_cpu = kzalloc(sizeof(*dtpm_cpu), GFP_KERNEL);
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if (!dtpm_cpu)
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return -ENOMEM;
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dtpm_init(&dtpm_cpu->dtpm, &dtpm_ops);
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dtpm_cpu->cpu = cpu;
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for_each_cpu(cpu, policy->related_cpus)
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per_cpu(dtpm_per_cpu, cpu) = dtpm_cpu;
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snprintf(name, sizeof(name), "cpu%d-cpufreq", dtpm_cpu->cpu);
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ret = dtpm_register(name, &dtpm_cpu->dtpm, NULL);
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if (ret)
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goto out_kfree_dtpm_cpu;
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ret = freq_qos_add_request(&policy->constraints,
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&dtpm_cpu->qos_req, FREQ_QOS_MAX,
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pd->table[pd->nr_perf_states - 1].frequency);
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if (ret)
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goto out_dtpm_unregister;
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return 0;
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out_dtpm_unregister:
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dtpm_unregister(&dtpm_cpu->dtpm);
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dtpm_cpu = NULL;
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out_kfree_dtpm_cpu:
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for_each_cpu(cpu, policy->related_cpus)
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per_cpu(dtpm_per_cpu, cpu) = NULL;
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kfree(dtpm_cpu);
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return ret;
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}
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static int __init dtpm_cpu_init(void)
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{
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int ret;
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/*
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* The callbacks at CPU hotplug time are calling
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* dtpm_update_power() which in turns calls update_pd_power().
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*
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* The function update_pd_power() uses the online mask to
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* figure out the power consumption limits.
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*
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* At CPUHP_AP_ONLINE_DYN, the CPU is present in the CPU
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* online mask when the cpuhp_dtpm_cpu_online function is
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* called, but the CPU is still in the online mask for the
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* tear down callback. So the power can not be updated when
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* the CPU is unplugged.
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*
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* At CPUHP_AP_DTPM_CPU_DEAD, the situation is the opposite as
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* above. The CPU online mask is not up to date when the CPU
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* is plugged in.
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*
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* For this reason, we need to call the online and offline
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* callbacks at different moments when the CPU online mask is
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* consistent with the power numbers we want to update.
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*/
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ret = cpuhp_setup_state(CPUHP_AP_DTPM_CPU_DEAD, "dtpm_cpu:offline",
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NULL, cpuhp_dtpm_cpu_offline);
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if (ret < 0)
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return ret;
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ret = cpuhp_setup_state(CPUHP_AP_ONLINE_DYN, "dtpm_cpu:online",
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cpuhp_dtpm_cpu_online, NULL);
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if (ret < 0)
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return ret;
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return 0;
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}
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struct dtpm_subsys_ops dtpm_cpu_ops = {
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.name = KBUILD_MODNAME,
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.init = dtpm_cpu_init,
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};
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