/* * Copyright (c) 2016 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include LOG_MODULE_DECLARE(os, CONFIG_KERNEL_LOG_LEVEL); /** * @brief Indicate that kernel is idling in tickless mode * * Sets the kernel data structure idle field to either a positive value or * K_FOREVER. */ static void pm_save_idle(void) { #ifdef CONFIG_PM int32_t ticks = z_get_next_timeout_expiry(); _kernel.idle = ticks; /* * Call the suspend hook function of the soc interface to allow * entry into a low power state. The function returns * PM_STATE_ACTIVE if low power state was not entered, in which * case, kernel does normal idle processing. * * This function is entered with interrupts disabled. If a low power * state was entered, then the hook function should enable inerrupts * before exiting. This is because the kernel does not do its own idle * processing in those cases i.e. skips k_cpu_idle(). The kernel's * idle processing re-enables interrupts which is essential for * the kernel's scheduling logic. */ if (pm_system_suspend(ticks) == PM_STATE_ACTIVE) { k_cpu_idle(); } #endif } void z_pm_save_idle_exit(int32_t ticks) { #ifdef CONFIG_PM /* Some CPU low power states require notification at the ISR * to allow any operations that needs to be done before kernel * switches task or processes nested interrupts. * This can be simply ignored if not required. */ pm_system_resume(); #endif /* CONFIG_PM */ sys_clock_idle_exit(); } void idle(void *unused1, void *unused2, void *unused3) { ARG_UNUSED(unused1); ARG_UNUSED(unused2); ARG_UNUSED(unused3); __ASSERT_NO_MSG(_current->base.prio >= 0); while (true) { /* SMP systems without a working IPI can't * actual enter an idle state, because they * can't be notified of scheduler changes * (i.e. threads they should run). They just * spin in a yield loop. This is intended as * a fallback configuration for new platform * bringup. */ if (IS_ENABLED(CONFIG_SMP) && !IS_ENABLED(CONFIG_SCHED_IPI_SUPPORTED)) { k_busy_wait(100); k_yield(); continue; } /* Note weird API: k_cpu_idle() is called with local * CPU interrupts masked, and returns with them * unmasked. It does not take a spinlock or other * higher level construct. */ (void) arch_irq_lock(); if (IS_ENABLED(CONFIG_PM)) { pm_save_idle(); } else { k_cpu_idle(); } #if !defined(CONFIG_PREEMPT_ENABLED) # if !defined(CONFIG_USE_SWITCH) || defined(CONFIG_SPARC) /* A legacy mess: the idle thread is by definition * preemptible as far as the modern scheduler is * concerned, but older platforms use * CONFIG_PREEMPT_ENABLED=n as an optimization hint * that interrupt exit always returns to the * interrupted context. So in that setup we need to * explicitly yield in the idle thread otherwise * nothing else will run once it starts. */ if (_kernel.ready_q.cache != _current) { z_swap_unlocked(); } # endif #endif } }