/* * Copyright (c) 2011-2015 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file CPU power management code for IA-32 * * This module provides an implementation of the architecture-specific * k_cpu_idle() primitive required by the kernel idle loop component. * It can be called within an implementation of _sys_power_save_idle(), * which is provided for the kernel by the platform. * * The module also provides an implementation of k_cpu_atomic_idle(), which * atomically re-enables interrupts and enters low power mode. * * INTERNAL * These implementations of k_cpu_idle() and k_cpu_atomic_idle() could be * used when operating as a Hypervisor guest. More specifically, the Hypervisor * supports the execution of the 'hlt' instruction from a guest (results in a * VM exit), and more importantly, the Hypervisor will respect the * single instruction delay slot after the 'sti' instruction as required * by k_cpu_atomic_idle(). */ #include #include #include #ifdef CONFIG_BOOT_TIME_MEASUREMENT extern uint64_t __idle_tsc; /* timestamp when CPU went idle */ #endif /** * * @brief Power save idle routine for IA-32 * * This function will be called by the kernel idle loop or possibly within * an implementation of _sys_power_save_idle in the kernel when the * '_sys_power_save_flag' variable is non-zero. The IA-32 'hlt' instruction * will be issued causing a low-power consumption sleep mode. * * @return N/A */ void k_cpu_idle(void) { _int_latency_stop(); _sys_k_event_logger_enter_sleep(); #if defined(CONFIG_BOOT_TIME_MEASUREMENT) __idle_tsc = _tsc_read(); #endif __asm__ volatile ( "sti\n\t" "hlt\n\t"); } /** * * @brief Atomically re-enable interrupts and enter low power mode * * INTERNAL * The requirements for k_cpu_atomic_idle() are as follows: * 1) The enablement of interrupts and entering a low-power mode needs to be * atomic, i.e. there should be no period of time where interrupts are * enabled before the processor enters a low-power mode. See the comments * in k_lifo_get(), for example, of the race condition that * occurs if this requirement is not met. * * 2) After waking up from the low-power mode, the interrupt lockout state * must be restored as indicated in the 'imask' input parameter. * * @return N/A */ void k_cpu_atomic_idle(unsigned int imask) { _int_latency_stop(); _sys_k_event_logger_enter_sleep(); __asm__ volatile ( "sti\n\t" /* * The following statement appears in "Intel 64 and IA-32 * Architectures Software Developer's Manual", regarding the 'sti' * instruction: * * "After the IF flag is set, the processor begins responding to * external, maskable interrupts after the next instruction is * executed." * * Thus the IA-32 implementation of k_cpu_atomic_idle() will * atomically re-enable interrupts and enter a low-power mode. */ "hlt\n\t"); /* restore interrupt lockout state before returning to caller */ if (!(imask & 0x200)) { _int_latency_start(); __asm__ volatile("cli"); } }