297 lines
7.3 KiB
C
297 lines
7.3 KiB
C
/*
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* Copyright (c) 2019 Nordic Semiconductor ASA
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <zephyr/drivers/sensor.h>
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#include <zephyr/drivers/clock_control.h>
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#include "nrf_clock_calibration.h"
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#include <zephyr/drivers/clock_control/nrf_clock_control.h>
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#include <nrfx_clock.h>
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#include <zephyr/logging/log.h>
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#include <stdlib.h>
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LOG_MODULE_DECLARE(clock_control, CONFIG_CLOCK_CONTROL_LOG_LEVEL);
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/**
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* Terms:
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* - calibration - overall process of LFRC clock calibration which is performed
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* periodically, calibration may include temperature monitoring, hf XTAL
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* starting and stopping.
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* - cycle - all calibration phases (waiting, temperature monitoring,
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* calibration).
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* - process - calibration process which may consists of hf XTAL clock
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* requesting, performing hw calibration and releasing hf clock.
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* - hw_cal - calibration action performed by the hardware.
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*
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* Those terms are later on used in function names.
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*
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* In order to ensure that low frequency clock is not released when calibration
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* is ongoing, it is requested by the calibration process and released when
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* calibration is done.
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*/
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static atomic_t cal_process_in_progress;
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static uint8_t calib_skip_cnt; /* Counting down skipped calibrations. */
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static volatile int total_cnt; /* Total number of calibrations. */
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static volatile int total_skips_cnt; /* Total number of skipped calibrations. */
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static void cal_hf_callback(struct onoff_manager *mgr,
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struct onoff_client *cli,
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uint32_t state, int res);
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static void cal_lf_callback(struct onoff_manager *mgr,
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struct onoff_client *cli,
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uint32_t state, int res);
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static struct onoff_client cli;
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static struct onoff_manager *mgrs;
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/* Temperature sensor is only needed if
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* CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_MAX_SKIP > 0, since a value of 0
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* indicates performing calibration periodically regardless of temperature
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* change.
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*/
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#define USE_TEMP_SENSOR \
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(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_MAX_SKIP > 0)
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#if USE_TEMP_SENSOR
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static const struct device *const temp_sensor =
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DEVICE_DT_GET_OR_NULL(DT_INST(0, nordic_nrf_temp));
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static void measure_temperature(struct k_work *work);
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static K_WORK_DEFINE(temp_measure_work, measure_temperature);
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static int16_t prev_temperature; /* Previous temperature measurement. */
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#endif /* USE_TEMP_SENSOR */
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static void timeout_handler(struct k_timer *timer);
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static K_TIMER_DEFINE(backoff_timer, timeout_handler, NULL);
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static void clk_request(struct onoff_manager *mgr, struct onoff_client *cli,
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onoff_client_callback callback)
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{
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int err;
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sys_notify_init_callback(&cli->notify, callback);
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err = onoff_request(mgr, cli);
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__ASSERT_NO_MSG(err >= 0);
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}
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static void clk_release(struct onoff_manager *mgr)
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{
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int err;
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err = onoff_release(mgr);
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__ASSERT_NO_MSG(err >= 0);
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}
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static void hf_request(void)
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{
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clk_request(&mgrs[CLOCK_CONTROL_NRF_TYPE_HFCLK], &cli, cal_hf_callback);
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}
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static void lf_request(void)
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{
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clk_request(&mgrs[CLOCK_CONTROL_NRF_TYPE_LFCLK], &cli, cal_lf_callback);
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}
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static void hf_release(void)
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{
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clk_release(&mgrs[CLOCK_CONTROL_NRF_TYPE_HFCLK]);
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}
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static void lf_release(void)
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{
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clk_release(&mgrs[CLOCK_CONTROL_NRF_TYPE_LFCLK]);
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}
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static void cal_lf_callback(struct onoff_manager *mgr,
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struct onoff_client *cli,
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uint32_t state, int res)
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{
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hf_request();
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}
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/* Start actual HW calibration assuming that HFCLK XTAL is on. */
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static void start_hw_cal(void)
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{
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nrfx_clock_calibration_start();
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calib_skip_cnt = CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_MAX_SKIP;
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}
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/* Start cycle by starting backoff timer and releasing HFCLK XTAL. */
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static void start_cycle(void)
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{
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k_timer_start(&backoff_timer,
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K_MSEC(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_PERIOD),
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K_NO_WAIT);
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hf_release();
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if (!IS_ENABLED(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_LF_ALWAYS_ON)) {
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lf_release();
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}
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cal_process_in_progress = 0;
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}
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static void start_cal_process(void)
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{
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if (atomic_cas(&cal_process_in_progress, 0, 1) == false) {
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return;
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}
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if (IS_ENABLED(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_LF_ALWAYS_ON)) {
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hf_request();
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} else {
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/* LF clock is probably running but it is requested to ensure
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* that it is not released while calibration process in ongoing.
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* If system releases the clock during calibration process it
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* will be released at the end of calibration process and
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* stopped in consequence.
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*/
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lf_request();
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}
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}
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static void timeout_handler(struct k_timer *timer)
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{
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start_cal_process();
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}
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/* Called when HFCLK XTAL is on. Schedules temperature measurement or triggers
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* calibration.
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*/
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static void cal_hf_callback(struct onoff_manager *mgr,
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struct onoff_client *cli,
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uint32_t state, int res)
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{
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#if USE_TEMP_SENSOR
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if (!device_is_ready(temp_sensor)) {
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start_hw_cal();
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} else {
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k_work_submit(&temp_measure_work);
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}
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#else
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start_hw_cal();
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#endif /* USE_TEMP_SENSOR */
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}
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#if USE_TEMP_SENSOR
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/* Convert sensor value to 0.25'C units. */
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static inline int16_t sensor_value_to_temp_unit(struct sensor_value *val)
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{
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return (int16_t)(4 * val->val1 + val->val2 / 250000);
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}
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/* Function reads from temperature sensor and converts to 0.25'C units. */
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static int get_temperature(int16_t *tvp)
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{
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struct sensor_value sensor_val;
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int rc = sensor_sample_fetch(temp_sensor);
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if (rc == 0) {
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rc = sensor_channel_get(temp_sensor, SENSOR_CHAN_DIE_TEMP,
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&sensor_val);
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}
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if (rc == 0) {
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*tvp = sensor_value_to_temp_unit(&sensor_val);
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}
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return rc;
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}
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/* Function determines if calibration should be performed based on temperature
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* measurement. Function is called from system work queue context. It is
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* reading temperature from TEMP sensor and compares with last measurement.
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*/
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static void measure_temperature(struct k_work *work)
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{
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int16_t temperature = 0;
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int16_t diff = 0;
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bool started = false;
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int rc;
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rc = get_temperature(&temperature);
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if (rc != 0) {
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/* Temperature read failed, force calibration. */
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calib_skip_cnt = 0;
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} else {
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diff = abs(temperature - prev_temperature);
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}
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if ((calib_skip_cnt == 0) ||
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(diff >= CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_TEMP_DIFF)) {
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prev_temperature = temperature;
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started = true;
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start_hw_cal();
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} else {
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calib_skip_cnt--;
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total_skips_cnt++;
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start_cycle();
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}
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LOG_DBG("Calibration %s. Temperature diff: %d (in 0.25'C units).",
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started ? "started" : "skipped", diff);
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}
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#endif /* USE_TEMP_SENSOR */
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void z_nrf_clock_calibration_init(struct onoff_manager *onoff_mgrs)
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{
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mgrs = onoff_mgrs;
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total_cnt = 0;
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total_skips_cnt = 0;
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}
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static void start_unconditional_cal_process(void)
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{
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calib_skip_cnt = 0;
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start_cal_process();
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}
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void z_nrf_clock_calibration_force_start(void)
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{
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/* if it's already in progress that is good enough. */
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if (cal_process_in_progress) {
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return;
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}
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start_unconditional_cal_process();
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}
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void z_nrf_clock_calibration_lfclk_started(void)
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{
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start_unconditional_cal_process();
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}
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void z_nrf_clock_calibration_lfclk_stopped(void)
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{
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k_timer_stop(&backoff_timer);
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LOG_DBG("Calibration stopped");
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}
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void z_nrf_clock_calibration_done_handler(void)
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{
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total_cnt++;
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LOG_DBG("Calibration done.");
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start_cycle();
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}
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int z_nrf_clock_calibration_count(void)
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{
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if (!IS_ENABLED(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_DEBUG)) {
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return -1;
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}
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return total_cnt;
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}
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int z_nrf_clock_calibration_skips_count(void)
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{
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if (!IS_ENABLED(CONFIG_CLOCK_CONTROL_NRF_CALIBRATION_DEBUG)) {
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return -1;
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}
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return total_skips_cnt;
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}
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