/**************************************************************************** * drivers/timers/arch_alarm.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ #define CONFIG_BOARD_LOOPSPER100USEC ((CONFIG_BOARD_LOOPSPERMSEC+5)/10) #define CONFIG_BOARD_LOOPSPER10USEC ((CONFIG_BOARD_LOOPSPERMSEC+50)/100) #define CONFIG_BOARD_LOOPSPERUSEC ((CONFIG_BOARD_LOOPSPERMSEC+500)/1000) #define timespec_to_usec(ts) \ ((uint64_t)(ts)->tv_sec * USEC_PER_SEC + (ts)->tv_nsec / NSEC_PER_USEC) /**************************************************************************** * Private Data ****************************************************************************/ static FAR struct oneshot_lowerhalf_s *g_oneshot_lower; /**************************************************************************** * Private Functions ****************************************************************************/ static inline void timespec_from_usec(FAR struct timespec *ts, uint64_t microseconds) { ts->tv_sec = microseconds / USEC_PER_SEC; microseconds -= (uint64_t)ts->tv_sec * USEC_PER_SEC; ts->tv_nsec = microseconds * NSEC_PER_USEC; } static void udelay_accurate(useconds_t microseconds) { struct timespec now; struct timespec end; struct timespec delta; ONESHOT_CURRENT(g_oneshot_lower, &now); timespec_from_usec(&delta, microseconds); clock_timespec_add(&now, &delta, &end); while (clock_timespec_compare(&now, &end) < 0) { ONESHOT_CURRENT(g_oneshot_lower, &now); } } static void udelay_coarse(useconds_t microseconds) { volatile int i; /* We'll do this a little at a time because we expect that the * CONFIG_BOARD_LOOPSPERUSEC is very inaccurate during to truncation in * the divisions of its calculation. We'll use the largest values that * we can in order to prevent significant error buildup in the loops. */ while (microseconds > 1000) { for (i = 0; i < CONFIG_BOARD_LOOPSPERMSEC; i++) { } microseconds -= 1000; } while (microseconds > 100) { for (i = 0; i < CONFIG_BOARD_LOOPSPER100USEC; i++) { } microseconds -= 100; } while (microseconds > 10) { for (i = 0; i < CONFIG_BOARD_LOOPSPER10USEC; i++) { } microseconds -= 10; } while (microseconds > 0) { for (i = 0; i < CONFIG_BOARD_LOOPSPERUSEC; i++) { } microseconds--; } } static void oneshot_callback(FAR struct oneshot_lowerhalf_s *lower, FAR void *arg) { struct timespec now; #ifdef CONFIG_SCHED_TICKLESS ONESHOT_CURRENT(g_oneshot_lower, &now); nxsched_alarm_expiration(&now); #else struct timespec delta; do { static uint64_t tick = 1; struct timespec next; nxsched_process_timer(); timespec_from_usec(&next, ++tick * USEC_PER_TICK); ONESHOT_CURRENT(g_oneshot_lower, &now); clock_timespec_subtract(&next, &now, &delta); } while (delta.tv_sec == 0 && delta.tv_nsec == 0); ONESHOT_START(g_oneshot_lower, oneshot_callback, NULL, &delta); #endif } /**************************************************************************** * Public Functions ****************************************************************************/ void up_alarm_set_lowerhalf(FAR struct oneshot_lowerhalf_s *lower) { #ifdef CONFIG_SCHED_TICKLESS struct timespec maxts; uint64_t maxticks; g_oneshot_lower = lower; ONESHOT_MAX_DELAY(g_oneshot_lower, &maxts); maxticks = timespec_to_usec(&maxts) / USEC_PER_TICK; g_oneshot_maxticks = maxticks < UINT32_MAX ? maxticks : UINT32_MAX; #else struct timespec ts; g_oneshot_lower = lower; timespec_from_usec(&ts, USEC_PER_TICK); ONESHOT_START(g_oneshot_lower, oneshot_callback, NULL, &ts); #endif } /**************************************************************************** * Name: up_timer_gettime * * Description: * Return the elapsed time since power-up (or, more correctly, since * the archtecture-specific timer was initialized). This function is * functionally equivalent to: * * int clock_gettime(clockid_t clockid, FAR struct timespec *ts); * * when clockid is CLOCK_MONOTONIC. * * This function provides the basis for reporting the current time and * also is used to eliminate error build-up from small errors in interval * time calculations. * * Provided by platform-specific code and called from the RTOS base code. * * Input Parameters: * ts - Provides the location in which to return the up-time. * * Returned Value: * Zero (OK) is returned on success; a negated errno value is returned on * any failure. * * Assumptions: * Called from the normal tasking context. The implementation must * provide whatever mutual exclusion is necessary for correct operation. * This can include disabling interrupts in order to assure atomic register * operations. * ****************************************************************************/ #ifdef CONFIG_CLOCK_TIMEKEEPING int weak_function up_timer_getcounter(FAR uint64_t *cycles) { int ret = -EAGAIN; if (g_oneshot_lower != NULL) { struct timespec now; ret = ONESHOT_CURRENT(g_oneshot_lower, &now); if (ret == 0) { *cycles = timespec_to_usec(&now) / USEC_PER_TICK; } } return ret; } void weak_function up_timer_getmask(FAR uint64_t *mask) { *mask = 0; if (g_oneshot_lower != NULL) { struct timespec maxts; uint64_t maxticks; ONESHOT_MAX_DELAY(g_oneshot_lower, &maxts); maxticks = timespec_to_usec(&maxts) / USEC_PER_TICK; for (; ; ) { uint64_t next = (*mask << 1) | 1; if (next > maxticks) { break; } *mask = next; } } } #endif #if defined(CONFIG_SCHED_TICKLESS) int weak_function up_timer_gettime(FAR struct timespec *ts) { int ret = -EAGAIN; if (g_oneshot_lower != NULL) { ret = ONESHOT_CURRENT(g_oneshot_lower, ts); } return ret; } #endif /**************************************************************************** * Name: up_alarm_cancel * * Description: * Cancel the alarm and return the time of cancellation of the alarm. * These two steps need to be as nearly atomic as possible. * nxsched_alarm_expiration() will not be called unless the alarm is * restarted with up_alarm_start(). * * If, as a race condition, the alarm has already expired when this * function is called, then time returned is the current time. * * NOTE: This function may execute at a high rate with no timer running (as * when pre-emption is enabled and disabled). * * Provided by platform-specific code and called from the RTOS base code. * * Input Parameters: * ts - Location to return the expiration time. The current time should * returned if the alarm is not active. ts may be NULL in which * case the time is not returned. * * Returned Value: * Zero (OK) is returned on success. A call to up_alarm_cancel() when * the timer is not active should also return success; a negated errno * value is returned on any failure. * * Assumptions: * May be called from interrupt level handling or from the normal tasking * level. Interrupts may need to be disabled internally to assure * non-reentrancy. * ****************************************************************************/ #ifdef CONFIG_SCHED_TICKLESS int weak_function up_alarm_cancel(FAR struct timespec *ts) { int ret = -EAGAIN; if (g_oneshot_lower != NULL) { ret = ONESHOT_CANCEL(g_oneshot_lower, ts); ONESHOT_CURRENT(g_oneshot_lower, ts); } return ret; } #endif /**************************************************************************** * Name: up_alarm_start * * Description: * Start the alarm. nxsched_alarm_expiration() will be called when the * alarm occurs (unless up_alaram_cancel is called to stop it). * * Provided by platform-specific code and called from the RTOS base code. * * Input Parameters: * ts - The time in the future at the alarm is expected to occur. When the * alarm occurs the timer logic will call nxsched_alarm_expiration(). * * Returned Value: * Zero (OK) is returned on success; a negated errno value is returned on * any failure. * * Assumptions: * May be called from interrupt level handling or from the normal tasking * level. Interrupts may need to be disabled internally to assure * non-reentrancy. * ****************************************************************************/ #ifdef CONFIG_SCHED_TICKLESS int weak_function up_alarm_start(FAR const struct timespec *ts) { int ret = -EAGAIN; if (g_oneshot_lower != NULL) { struct timespec now; struct timespec delta; ONESHOT_CURRENT(g_oneshot_lower, &now); clock_timespec_subtract(ts, &now, &delta); ret = ONESHOT_START(g_oneshot_lower, oneshot_callback, NULL, &delta); } return ret; } #endif /**************************************************************************** * Name: up_perf_* * * Description: * The first interface simply provides the current time value in unknown * units. NOTE: This function may be called early before the timer has * been initialized. In that event, the function should just return a * start time of zero. * * Nothing is assumed about the units of this time value. The following * are assumed, however: (1) The time is an unsigned integer value, (2) * the time is monotonically increasing, and (3) the elapsed time (also * in unknown units) can be obtained by subtracting a start time from * the current time. * * The second interface simple converts an elapsed time into well known * units. ****************************************************************************/ uint32_t weak_function up_perf_gettime(void) { uint32_t ret = 0; if (g_oneshot_lower != NULL) { struct timespec ts; ONESHOT_CURRENT(g_oneshot_lower, &ts); ret = timespec_to_usec(&ts); } return ret; } uint32_t weak_function up_perf_getfreq(void) { return USEC_PER_SEC; } void weak_function up_perf_convert(uint32_t elapsed, FAR struct timespec *ts) { timespec_from_usec(ts, elapsed); } /**************************************************************************** * Name: up_mdelay * * Description: * Delay inline for the requested number of milliseconds. * *** NOT multi-tasking friendly *** * ****************************************************************************/ void weak_function up_mdelay(unsigned int milliseconds) { up_udelay(USEC_PER_MSEC * milliseconds); } /**************************************************************************** * Name: up_udelay * * Description: * Delay inline for the requested number of microseconds. * * *** NOT multi-tasking friendly *** * ****************************************************************************/ void weak_function up_udelay(useconds_t microseconds) { if (g_oneshot_lower != NULL) { udelay_accurate(microseconds); } else /* Oneshot timer hasn't been initialized yet */ { udelay_coarse(microseconds); } }