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hal/mbed_ticker_api.c
- Committer:
- AnnaBridge
- Date:
- 2017-10-02
- Revision:
- 175:b96e65c34a4d
- Parent:
- 168:e84263d55307
- Child:
- 176:af195413fb11
File content as of revision 175:b96e65c34a4d:
/* mbed Microcontroller Library * Copyright (c) 2015 ARM Limited * * 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. */ #include <stdio.h> #include <stddef.h> #include "hal/ticker_api.h" #include "platform/mbed_critical.h" static void schedule_interrupt(const ticker_data_t *const ticker); static void update_present_time(const ticker_data_t *const ticker); /* * Initialize a ticker instance. */ static void initialize(const ticker_data_t *ticker) { // return if the queue has already been initialized, in that case the // interface used by the queue is already initialized. if (ticker->queue->initialized) { return; } ticker->interface->init(); ticker->queue->event_handler = NULL; ticker->queue->head = NULL; ticker->queue->present_time = 0; ticker->queue->initialized = true; update_present_time(ticker); schedule_interrupt(ticker); } /** * Set the event handler function of a ticker instance. */ static void set_handler(const ticker_data_t *const ticker, ticker_event_handler handler) { ticker->queue->event_handler = handler; } /* * Convert a 32 bit timestamp into a 64 bit timestamp. * * A 64 bit timestamp is used as the point of time of reference while the * timestamp to convert is relative to this point of time. * * The lower 32 bits of the timestamp returned will be equal to the timestamp to * convert. * * If the timestamp to convert is less than the lower 32 bits of the time * reference then the timestamp to convert is seen as an overflowed value and * the upper 32 bit of the timestamp returned will be equal to the upper 32 bit * of the reference point + 1. * Otherwise, the upper 32 bit returned will be equal to the upper 32 bit of the * reference point. * * @param ref: The 64 bit timestamp of reference. * @param timestamp: The timestamp to convert. */ static us_timestamp_t convert_timestamp(us_timestamp_t ref, timestamp_t timestamp) { bool overflow = timestamp < ((timestamp_t) ref) ? true : false; us_timestamp_t result = (ref & ~((us_timestamp_t)UINT32_MAX)) | timestamp; if (overflow) { result += (1ULL<<32); } return result; } /** * Update the present timestamp value of a ticker. */ static void update_present_time(const ticker_data_t *const ticker) { ticker->queue->present_time = convert_timestamp( ticker->queue->present_time, ticker->interface->read() ); } /** * Compute the time when the interrupt has to be triggered and schedule it. * * If there is no event in the queue or the next event to execute is in more * than MBED_TICKER_INTERRUPT_TIMESTAMP_MAX_DELTA us from now then the ticker * irq will be scheduled in MBED_TICKER_INTERRUPT_TIMESTAMP_MAX_DELTA us. * Otherwise the irq will be scheduled to happen when the running counter reach * the timestamp of the first event in the queue. * * @note If there is no event in the queue then the interrupt is scheduled to * in MBED_TICKER_INTERRUPT_TIMESTAMP_MAX_DELTA. This is necessary to keep track * of the timer overflow. */ static void schedule_interrupt(const ticker_data_t *const ticker) { update_present_time(ticker); uint32_t relative_timeout = MBED_TICKER_INTERRUPT_TIMESTAMP_MAX_DELTA; if (ticker->queue->head) { us_timestamp_t present = ticker->queue->present_time; us_timestamp_t next_event_timestamp = ticker->queue->head->timestamp; // if the event at the head of the queue is in the past then schedule // it immediately. if (next_event_timestamp <= present) { ticker->interface->fire_interrupt(); return; } else if ((next_event_timestamp - present) < MBED_TICKER_INTERRUPT_TIMESTAMP_MAX_DELTA) { relative_timeout = next_event_timestamp - present; } } us_timestamp_t new_match_time = ticker->queue->present_time + relative_timeout; ticker->interface->set_interrupt(new_match_time); // there could be a delay, reread the time, check if it was set in the past // As result, if it is already in the past, we fire it immediately update_present_time(ticker); us_timestamp_t present = ticker->queue->present_time; if (present >= new_match_time) { ticker->interface->fire_interrupt(); } } void ticker_set_handler(const ticker_data_t *const ticker, ticker_event_handler handler) { initialize(ticker); set_handler(ticker, handler); } void ticker_irq_handler(const ticker_data_t *const ticker) { ticker->interface->clear_interrupt(); /* Go through all the pending TimerEvents */ while (1) { if (ticker->queue->head == NULL) { break; } // update the current timestamp used by the queue update_present_time(ticker); if (ticker->queue->head->timestamp <= ticker->queue->present_time) { // This event was in the past: // point to the following one and execute its handler ticker_event_t *p = ticker->queue->head; ticker->queue->head = ticker->queue->head->next; if (ticker->queue->event_handler != NULL) { (*ticker->queue->event_handler)(p->id); // NOTE: the handler can set new events } /* Note: We continue back to examining the head because calling the * event handler may have altered the chain of pending events. */ } else { break; } } schedule_interrupt(ticker); } void ticker_insert_event(const ticker_data_t *const ticker, ticker_event_t *obj, timestamp_t timestamp, uint32_t id) { core_util_critical_section_enter(); // update the current timestamp update_present_time(ticker); us_timestamp_t absolute_timestamp = convert_timestamp( ticker->queue->present_time, timestamp ); core_util_critical_section_exit(); // defer to ticker_insert_event_us ticker_insert_event_us( ticker, obj, absolute_timestamp, id ); } void ticker_insert_event_us(const ticker_data_t *const ticker, ticker_event_t *obj, us_timestamp_t timestamp, uint32_t id) { core_util_critical_section_enter(); // update the current timestamp update_present_time(ticker); // initialise our data obj->timestamp = timestamp; obj->id = id; /* Go through the list until we either reach the end, or find an element this should come before (which is possibly the head). */ ticker_event_t *prev = NULL, *p = ticker->queue->head; while (p != NULL) { /* check if we come before p */ if (timestamp < p->timestamp) { break; } /* go to the next element */ prev = p; p = p->next; } /* if we're at the end p will be NULL, which is correct */ obj->next = p; /* if prev is NULL we're at the head */ if (prev == NULL) { ticker->queue->head = obj; } else { prev->next = obj; } schedule_interrupt(ticker); core_util_critical_section_exit(); } void ticker_remove_event(const ticker_data_t *const ticker, ticker_event_t *obj) { core_util_critical_section_enter(); // remove this object from the list if (ticker->queue->head == obj) { // first in the list, so just drop me ticker->queue->head = obj->next; schedule_interrupt(ticker); } else { // find the object before me, then drop me ticker_event_t* p = ticker->queue->head; while (p != NULL) { if (p->next == obj) { p->next = obj->next; break; } p = p->next; } } core_util_critical_section_exit(); } timestamp_t ticker_read(const ticker_data_t *const ticker) { return ticker_read_us(ticker); } us_timestamp_t ticker_read_us(const ticker_data_t *const ticker) { update_present_time(ticker); return ticker->queue->present_time; } int ticker_get_next_timestamp(const ticker_data_t *const data, timestamp_t *timestamp) { int ret = 0; /* if head is NULL, there are no pending events */ core_util_critical_section_enter(); if (data->queue->head != NULL) { *timestamp = data->queue->head->timestamp; ret = 1; } core_util_critical_section_exit(); return ret; }