249 lines
5.4 KiB
C
249 lines
5.4 KiB
C
/* Copyright (c) 2022 Intel corporation
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <zephyr/kernel.h>
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#include <zephyr/kernel_structs.h>
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#include <zephyr/kernel/smp.h>
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#include <zephyr/spinlock.h>
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#include <kswap.h>
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#include <kernel_internal.h>
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static atomic_t global_lock;
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/**
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* Flag to tell recently powered up CPU to start
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* initialization routine.
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*
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* 0 to tell powered up CPU to wait.
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* 1 to tell powered up CPU to continue initialization.
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*/
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static atomic_t cpu_start_flag;
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/**
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* Flag to tell caller that the target CPU is now
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* powered up and ready to be initialized.
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*
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* 0 if target CPU is not yet ready.
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* 1 if target CPU has powered up and ready to be initialized.
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*/
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static atomic_t ready_flag;
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/**
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* Struct holding the function to be called before handing off
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* to schedule and its argument.
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*/
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static struct cpu_start_cb {
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/**
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* Function to be called before handing off to scheduler.
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* Can be NULL.
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*/
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smp_init_fn fn;
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/** Argument to @ref cpu_start_fn.fn. */
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void *arg;
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/** Invoke scheduler after CPU has started if true. */
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bool invoke_sched;
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#ifdef CONFIG_SYS_CLOCK_EXISTS
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/** True if smp_timer_init() needs to be called. */
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bool reinit_timer;
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#endif
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} cpu_start_fn;
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static struct k_spinlock cpu_start_lock;
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unsigned int z_smp_global_lock(void)
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{
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unsigned int key = arch_irq_lock();
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if (!_current->base.global_lock_count) {
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while (!atomic_cas(&global_lock, 0, 1)) {
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}
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}
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_current->base.global_lock_count++;
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return key;
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}
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void z_smp_global_unlock(unsigned int key)
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{
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if (_current->base.global_lock_count != 0U) {
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_current->base.global_lock_count--;
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if (!_current->base.global_lock_count) {
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atomic_clear(&global_lock);
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}
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}
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arch_irq_unlock(key);
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}
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/* Called from within z_swap(), so assumes lock already held */
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void z_smp_release_global_lock(struct k_thread *thread)
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{
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if (!thread->base.global_lock_count) {
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atomic_clear(&global_lock);
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}
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}
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/* Tiny delay that relaxes bus traffic to avoid spamming a shared
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* memory bus looking at an atomic variable
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*/
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static inline void local_delay(void)
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{
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for (volatile int i = 0; i < 1000; i++) {
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}
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}
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static void wait_for_start_signal(atomic_t *start_flag)
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{
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/* Wait for the signal to begin scheduling */
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while (!atomic_get(start_flag)) {
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local_delay();
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}
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}
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static inline void smp_init_top(void *arg)
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{
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struct k_thread dummy_thread;
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struct cpu_start_cb *csc = arg;
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/* Let start_cpu() know that this CPU has powered up. */
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(void)atomic_set(&ready_flag, 1);
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/* Wait for the CPU start caller to signal that
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* we can start initialization.
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*/
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wait_for_start_signal(&cpu_start_flag);
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#ifdef CONFIG_SYS_CLOCK_EXISTS
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if ((csc == NULL) || csc->reinit_timer) {
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smp_timer_init();
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}
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#endif
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/* Do additional initialization steps if needed. */
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if ((csc != NULL) && (csc->fn != NULL)) {
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csc->fn(csc->arg);
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}
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if ((csc != NULL) && !csc->invoke_sched) {
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/* Don't invoke scheduler. */
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return;
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}
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/* Initialize the dummy thread struct so that
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* the scheduler can schedule actual threads to run.
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*/
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z_dummy_thread_init(&dummy_thread);
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/* Let scheduler decide what thread to run next. */
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z_swap_unlocked();
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CODE_UNREACHABLE; /* LCOV_EXCL_LINE */
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}
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static void start_cpu(int id, struct cpu_start_cb *csc)
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{
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/* Clear the ready flag so the newly powered up CPU can
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* signal that it has powered up.
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*/
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(void)atomic_clear(&ready_flag);
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/* Power up the CPU */
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arch_start_cpu(id, z_interrupt_stacks[id], CONFIG_ISR_STACK_SIZE,
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smp_init_top, csc);
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/* Wait until the newly powered up CPU to signal that
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* it has powered up.
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*/
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while (!atomic_get(&ready_flag)) {
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local_delay();
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}
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}
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void k_smp_cpu_start(int id, smp_init_fn fn, void *arg)
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{
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k_spinlock_key_t key = k_spin_lock(&cpu_start_lock);
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cpu_start_fn.fn = fn;
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cpu_start_fn.arg = arg;
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cpu_start_fn.invoke_sched = true;
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#ifdef CONFIG_SYS_CLOCK_EXISTS
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cpu_start_fn.reinit_timer = true;
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#endif
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/* We are only starting one CPU so we do not need to synchronize
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* across all CPUs using the start_flag. So just set it to 1.
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*/
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(void)atomic_set(&cpu_start_flag, 1); /* async, don't care */
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/* Initialize various CPU structs related to this CPU. */
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z_init_cpu(id);
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/* Start the CPU! */
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start_cpu(id, &cpu_start_fn);
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k_spin_unlock(&cpu_start_lock, key);
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}
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void k_smp_cpu_resume(int id, smp_init_fn fn, void *arg,
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bool reinit_timer, bool invoke_sched)
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{
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k_spinlock_key_t key = k_spin_lock(&cpu_start_lock);
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cpu_start_fn.fn = fn;
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cpu_start_fn.arg = arg;
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cpu_start_fn.invoke_sched = invoke_sched;
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#ifdef CONFIG_SYS_CLOCK_EXISTS
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cpu_start_fn.reinit_timer = reinit_timer;
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#else
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ARG_UNUSED(reinit_timer);
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#endif
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/* We are only starting one CPU so we do not need to synchronize
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* across all CPUs using the start_flag. So just set it to 1.
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*/
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(void)atomic_set(&cpu_start_flag, 1);
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/* Start the CPU! */
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start_cpu(id, &cpu_start_fn);
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k_spin_unlock(&cpu_start_lock, key);
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}
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void z_smp_init(void)
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{
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/* We are powering up all CPUs and we want to synchronize their
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* entry into scheduler. So set the start flag to 0 here.
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*/
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(void)atomic_clear(&cpu_start_flag);
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/* Just start CPUs one by one. */
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unsigned int num_cpus = arch_num_cpus();
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for (int i = 1; i < num_cpus; i++) {
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z_init_cpu(i);
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start_cpu(i, NULL);
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}
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/* Let loose those CPUs so they can start scheduling
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* threads to run.
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*/
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(void)atomic_set(&cpu_start_flag, 1);
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}
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bool z_smp_cpu_mobile(void)
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{
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unsigned int k = arch_irq_lock();
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bool pinned = arch_is_in_isr() || !arch_irq_unlocked(k);
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arch_irq_unlock(k);
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return !pinned;
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}
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