esp-open-rtos/extras/ds3231/ds3231.h

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/* Driver for DS3231 high precision RTC module
*
* Part of esp-open-rtos
* Copyright (C) 2015 Richard A Burton <richardaburton@gmail.com>
* Copyright (C) 2016 Bhuvanchandra DV <bhuvanchandra.dv@gmail.com>
* MIT Licensed as described in the file LICENSE
*/
#ifndef __DS3231_H__
#define __DS3231_H__
#include <stdint.h>
#include <stdbool.h>
#include <time.h>
#ifdef __cplusplus
extern "C" {
#endif
#define DS3231_ADDR 0x68
#define DS3231_STAT_OSCILLATOR 0x80
#define DS3231_STAT_32KHZ 0x08
#define DS3231_STAT_BUSY 0x04
#define DS3231_STAT_ALARM_2 0x02
#define DS3231_STAT_ALARM_1 0x01
#define DS3231_CTRL_OSCILLATOR 0x80
#define DS3231_CTRL_SQUAREWAVE_BB 0x40
#define DS3231_CTRL_TEMPCONV 0x20
#define DS3231_CTRL_SQWAVE_4096HZ 0x10
#define DS3231_CTRL_SQWAVE_1024HZ 0x08
#define DS3231_CTRL_SQWAVE_8192HZ 0x18
#define DS3231_CTRL_SQWAVE_1HZ 0x00
#define DS3231_CTRL_ALARM_INTS 0x04
#define DS3231_CTRL_ALARM2_INT 0x02
#define DS3231_CTRL_ALARM1_INT 0x01
#define DS3231_ALARM_WDAY 0x40
#define DS3231_ALARM_NOTSET 0x80
#define DS3231_ADDR_TIME 0x00
#define DS3231_ADDR_ALARM1 0x07
#define DS3231_ADDR_ALARM2 0x0b
#define DS3231_ADDR_CONTROL 0x0e
#define DS3231_ADDR_STATUS 0x0f
#define DS3231_ADDR_AGING 0x10
#define DS3231_ADDR_TEMP 0x11
#define DS3231_12HOUR_FLAG 0x40
#define DS3231_12HOUR_MASK 0x1f
#define DS3231_PM_FLAG 0x20
#define DS3231_MONTH_MASK 0x1f
enum {
DS3231_SET = 0,
DS3231_CLEAR,
DS3231_REPLACE
};
enum {
DS3231_ALARM_NONE = 0,
DS3231_ALARM_1,
DS3231_ALARM_2,
DS3231_ALARM_BOTH
};
enum {
DS3231_ALARM1_EVERY_SECOND = 0,
DS3231_ALARM1_MATCH_SEC,
DS3231_ALARM1_MATCH_SECMIN,
DS3231_ALARM1_MATCH_SECMINHOUR,
DS3231_ALARM1_MATCH_SECMINHOURDAY,
DS3231_ALARM1_MATCH_SECMINHOURDATE
};
enum {
DS3231_ALARM2_EVERY_MIN = 0,
DS3231_ALARM2_MATCH_MIN,
DS3231_ALARM2_MATCH_MINHOUR,
DS3231_ALARM2_MATCH_MINHOURDAY,
DS3231_ALARM2_MATCH_MINHOURDATE
};
/* Set the time on the rtc
* timezone agnostic, pass whatever you like
* I suggest using GMT and applying timezone and DST when read back
* returns true to indicate success
*/
int ds3231_setTime(struct tm *time);
/* Set alarms
* alarm1 works with seconds, minutes, hours and day of week/month, or fires every second
* alarm2 works with minutes, hours and day of week/month, or fires every minute
* not all combinations are supported, see DS3231_ALARM1_* and DS3231_ALARM2_* defines
* for valid options you only need to populate the fields you are using in the tm struct,
* and you can set both alarms at the same time (pass DS3231_ALARM_1/DS3231_ALARM_2/DS3231_ALARM_BOTH)
* if only setting one alarm just pass 0 for tm struct and option field for the other alarm
* if using DS3231_ALARM1_EVERY_SECOND/DS3231_ALARM2_EVERY_MIN you can pass 0 for tm stuct
* if you want to enable interrupts for the alarms you need to do that separately
* returns true to indicate success
*/
int ds3231_setAlarm(uint8_t alarms, struct tm *time1, uint8_t option1, struct tm *time2, uint8_t option2);
/* Check if oscillator has previously stopped, e.g. no power/battery or disabled
* sets flag to true if there has been a stop
* returns true to indicate success
*/
bool ds3231_getOscillatorStopFlag(bool *flag);
/* Clear the oscillator stopped flag
* returns true to indicate success
*/
bool ds3231_clearOscillatorStopFlag();
/* Check which alarm(s) have past
* sets alarms to DS3231_ALARM_NONE/DS3231_ALARM_1/DS3231_ALARM_2/DS3231_ALARM_BOTH
* returns true to indicate success
*/
bool ds3231_getAlarmFlags(uint8_t *alarms);
/* Clear alarm past flag(s)
* pass DS3231_ALARM_1/DS3231_ALARM_2/DS3231_ALARM_BOTH
* returns true to indicate success
*/
bool ds3231_clearAlarmFlags(uint8_t alarm);
/* enable alarm interrupts (and disables squarewave)
* pass DS3231_ALARM_1/DS3231_ALARM_2/DS3231_ALARM_BOTH
* if you set only one alarm the status of the other is not changed
* you must also clear any alarm past flag(s) for alarms with
* interrupt enabled, else it will trigger immediately
* returns true to indicate success
*/
bool ds3231_enableAlarmInts(uint8_t alarms);
/* Disable alarm interrupts (does not (re-)enable squarewave)
* pass DS3231_ALARM_1/DS3231_ALARM_2/DS3231_ALARM_BOTH
* returns true to indicate success
*/
bool ds3231_disableAlarmInts(uint8_t alarms);
/* Enable the output of 32khz signal
* returns true to indicate success
*/
bool ds3231_enable32khz();
/* Disable the output of 32khz signal
* returns true to indicate success
*/
bool ds3231_disable32khz();
/* Enable the squarewave output (disables alarm interrupt functionality)
* returns true to indicate success
*/
bool ds3231_enableSquarewave();
/* Disable the squarewave output (which re-enables alarm interrupts, but individual
* alarm interrupts also need to be enabled, if not already, before they will trigger)
* returns true to indicate success
*/
bool ds3231_disableSquarewave();
/* Set the frequency of the squarewave output (but does not enable it)
* pass DS3231_SQUAREWAVE_RATE_1HZ/DS3231_SQUAREWAVE_RATE_1024HZ/DS3231_SQUAREWAVE_RATE_4096HZ/DS3231_SQUAREWAVE_RATE_8192HZ
* returns true to indicate success
*/
bool ds3231_setSquarewaveFreq(uint8_t freq);
/* Get the raw value
* returns true to indicate success
*/
bool ds3231_getRawTemp(int16_t *temp);
/* Get the temperature as an integer
* returns true to indicate success
*/
bool ds3231_getTempInteger(int8_t *temp);
/* Get the temerapture as a float (in quarter degree increments)
* returns true to indicate success
*/
bool ds3231_getTempFloat(float *temp);
/* Get the time from the rtc, populates a supplied tm struct
* returns true to indicate success
*/
bool ds3231_getTime(struct tm *time);
void ds3231_Init(uint8_t scl, uint8_t sda);
#ifdef __cplusplus
}
#endif
#endif /* __DS3231_H__ */