/* * Copyright (c) 1997-2010, 2012-2015 Wind River Systems, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file * @brief Microkernel tick event handler * * This module implements the microkernel's tick event handler. */ #include #include #include #include #include #include #include #include #ifdef CONFIG_TIMESLICING static int32_t slice_count = (int32_t)0; static int32_t slice_time = (int32_t)CONFIG_TIMESLICE_SIZE; static kpriority_t slice_prio = (kpriority_t)CONFIG_TIMESLICE_PRIORITY; #endif /* CONFIG_TIMESLICING */ #ifdef CONFIG_TICKLESS_IDLE /* Number of ticks elapsed that have not been announced to the microkernel */ int32_t _sys_idle_elapsed_ticks; /* Initial value must be 0 */ #endif /** * @internal * @brief Task level debugging tick handler * * If task level debugging is configured this routine updates the low resolution * debugging timer and determines if task level processing should be suspended. * * @return 0 if task level processing should be halted or 1 if not * */ #ifdef CONFIG_TASK_DEBUG uint32_t __noinit _k_debug_sys_clock_tick_count; static inline int _TlDebugUpdate(int32_t ticks) { _k_debug_sys_clock_tick_count += ticks; return !_k_debug_halt; } #else #define _TlDebugUpdate(ticks) 1 #endif /** * @internal * @brief Tick handler time slice logic * * This routine checks to see if it is time for the current task * to relinquish control, and yields CPU if so. * * @return N/A * */ static inline void _TimeSliceUpdate(void) { #ifdef CONFIG_TIMESLICING int yield = slice_time && (_k_current_task->priority >= slice_prio) && (++slice_count >= slice_time); if (yield) { slice_count = 0; _k_task_yield(NULL); } #else /* do nothing */ #endif /* CONFIG_TIMESLICING */ } /** * @internal * @brief Get elapsed ticks * * If tickless idle support is configured this routine returns the number * of ticks since going idle and then resets the global elapsed tick counter back * to zero indicating all elapsed ticks have been consumed. This is done with * interrupts locked to prevent the timer ISR from modifying the global elapsed * tick counter. * If tickless idle support is not configured in it simply returns 1. * * @return number of ticks to process */ static inline int32_t _SysIdleElapsedTicksGet(void) { #ifdef CONFIG_TICKLESS_IDLE int32_t ticks; int key; key = irq_lock(); ticks = _sys_idle_elapsed_ticks; _sys_idle_elapsed_ticks = 0; irq_unlock(key); return ticks; #else /* A single tick always elapses when not in tickless mode */ return 1; #endif } /** * * @brief Microkernel tick handler * * This routine informs other microkernel subsystems that a tick event has * occurred. * @param even Event * @return 1 */ int _k_ticker(int event) { (void)event; /* prevent "unused argument" compiler warning */ int32_t ticks; ticks = _SysIdleElapsedTicksGet(); _k_workload_monitor_update(); if (_TlDebugUpdate(ticks)) { _TimeSliceUpdate(); _k_timer_list_update(ticks); _nano_sys_clock_tick_announce(ticks); } return 1; } #ifdef CONFIG_TIMESLICING void sys_scheduler_time_slice_set(int32_t t, kpriority_t p) { slice_time = t; slice_prio = p; } #endif /* CONFIG_TIMESLICING */