mbed official
mbed library sources. Supersedes mbed-src.
Dependents: Nucleo_Hello_Encoder BLE_iBeaconScan AM1805_DEMO DISCO-F429ZI_ExportTemplate1 ... more
targets/TARGET_ARM_SSG/TARGET_CM3DS_MPS2/cmsdk_ticker.c
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 189:f392fc9709a3
- Parent:
- 184:08ed48f1de7f
File content as of revision 189:f392fc9709a3:
/*
* Copyright (c) 2018 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.
*/
/**
* \file cmsdk_ticker.c
* Two abstracted functionalities for CMSDK APB Timers
* 1. Measure elapsed time
* 2. Timer interval interrupt
*
* Passed \ref tick_drv_data_t should be initialized by the caller
* for using these services accordingly.
* See details \ref tick_cfg_t and \ref tick_data_t.
*/
#include "cmsdk_ticker.h"
void cmsdk_ticker_init(const struct tick_drv_data_t* timer_data)
{
if (!timer_data->data->is_initialized) {
timer_cmsdk_init(timer_data->cfg->timer_driver);
timer_cmsdk_set_reload_value(timer_data->cfg->timer_driver,
TIMER_CMSDK_MAX_RELOAD);
timer_cmsdk_enable_interrupt(timer_data->cfg->timer_driver);
NVIC_EnableIRQ(timer_data->cfg->irq_n);
timer_data->data->max_interval_time =
timer_data->cfg->convert_tick_to_time(TIMER_CMSDK_MAX_RELOAD);
timer_data->data->reload_time = timer_data->data->max_interval_time;
timer_data->data->is_initialized = true;
timer_cmsdk_enable(timer_data->cfg->timer_driver);
}
}
uint32_t cmsdk_ticker_read(const struct tick_drv_data_t* timer_data)
{
uint32_t current_elapsed = 0;
if (!timer_data->data->is_initialized) {
cmsdk_ticker_init(timer_data);
}
current_elapsed = timer_cmsdk_get_elapsed_value(timer_data->cfg->timer_driver);
/*
* If for the same reload cycle (ie. cumulated_time is the same) the
* current elapsed time is lower than the previous one, it means that the
* timer has wrapped around without the system logging it. To ensure that
* we are always returning an increasing time in those condition, we return
* the time perviously read.
*/
if ((timer_data->data->previous_cumulated_time ==
timer_data->data->cumulated_time) &&
(current_elapsed < timer_data->data->previous_elapsed)) {
current_elapsed = timer_data->data->previous_elapsed;
}
timer_data->data->previous_elapsed = current_elapsed;
timer_data->data->previous_cumulated_time =
timer_data->data->cumulated_time;
return (timer_data->data->cumulated_time +
timer_data->cfg->convert_tick_to_time(current_elapsed));
}
void cmsdk_ticker_set_interrupt(const struct tick_drv_data_t* timer_data,
uint32_t timestamp)
{
uint32_t interval = 0;
uint32_t interval_reload_tick = 0;
/* Stop before read to avoid race condition with IRQ. */
timer_cmsdk_disable(timer_data->cfg->timer_driver);
uint32_t current_time = cmsdk_ticker_read(timer_data);
timer_data->data->interval_callback_enabled = true;
/*
* We always assume that the event is in the future, even if this
* substraction underflows it is still corect.
*/
interval = (timestamp - current_time);
if (interval >= timer_data->data->max_interval_time) {
/* Event will be in the future but the time is too big: set max */
interval_reload_tick = TIMER_CMSDK_MAX_RELOAD;
timer_data->data->reload_time = timer_data->data->max_interval_time;
} else {
/* Event will be in the future in a time that can be set */
interval_reload_tick =
timer_data->cfg->convert_time_to_tick(interval);
timer_data->data->reload_time = interval;
}
/* Store the current elapsed time, before reset the timer */
timer_data->data->cumulated_time = current_time;
/* Reset the timer with new reload value */
timer_cmsdk_set_reload_value(timer_data->cfg->timer_driver,
interval_reload_tick);
timer_cmsdk_reset(timer_data->cfg->timer_driver);
timer_cmsdk_enable(timer_data->cfg->timer_driver);
}
void cmsdk_ticker_disable_interrupt(const struct tick_drv_data_t* timer_data)
{
if (!timer_data->data->is_initialized) {
cmsdk_ticker_init(timer_data);
}
timer_data->data->interval_callback_enabled = false;
/* Stop before read to avoid race condition with IRQ. */
timer_cmsdk_disable(timer_data->cfg->timer_driver);
/* If interval interrupt is disabled, restore the default max interval,
* but save the current elapsed time before changing the timer. */
timer_data->data->cumulated_time = cmsdk_ticker_read(timer_data);
/* Reset the timer with default reload value */
timer_cmsdk_set_reload_value(timer_data->cfg->timer_driver,
TIMER_CMSDK_MAX_RELOAD);
timer_data->data->reload_time = timer_data->data->max_interval_time;
timer_cmsdk_reset(timer_data->cfg->timer_driver);
timer_cmsdk_enable(timer_data->cfg->timer_driver);
}
void cmsdk_ticker_clear_interrupt(const struct tick_drv_data_t* timer_data)
{
timer_cmsdk_clear_interrupt(timer_data->cfg->timer_driver);
}
void cmsdk_ticker_fire_interrupt(const struct tick_drv_data_t* timer_data)
{
NVIC_SetPendingIRQ(timer_data->cfg->irq_n);
}
void cmsdk_ticker_irq_handler(const struct tick_drv_data_t* timer_data)
{
uint32_t reload_val = 0;
/* If timer's internal interrupt status is not active, then not overflow,
* but explicit interrupt request was fired by cmsdk_ticker_fire_interrupt.
*/
if (timer_cmsdk_is_interrupt_active(timer_data->cfg->timer_driver)) {
/* 1. Calculate cumulated time by overflow */
timer_cmsdk_clear_interrupt(timer_data->cfg->timer_driver);
reload_val = timer_cmsdk_get_reload_value(timer_data->cfg->timer_driver);
timer_data->data->cumulated_time +=
timer_data->cfg->convert_tick_to_time(reload_val);
}
/* 2. Call mbed interval interrupt handler if it's required */
if (timer_data->data->interval_callback_enabled) {
cmsdk_ticker_disable_interrupt(timer_data);
timer_data->cfg->interval_callback();
}
}
