rusefi-1/firmware/hw_layer/rtc_helper.cpp

/**
 * @file rtc_helper.cpp
 * @brief Real Time Clock helper
 *
 * @date Feb 5, 2014
 * @author Andrey Belomutskiy, (c) 2012-2020
 */

#include <string.h> 
#include <time.h>
#include "global.h"
#include "os_access.h"
#include "os_util.h"
#include "rtc_helper.h"

#if EFI_RTC
static LoggingWithStorage logger("RTC");
static RTCDateTime timespec;

extern bool rtcWorks;

#endif /* EFI_RTC */

void date_set_tm(struct tm *timp) {
	(void)timp;
#if EFI_RTC
        rtcConvertStructTmToDateTime(timp, 0, &timespec);
	rtcSetTime(&RTCD1, &timespec);
#endif /* EFI_RTC */
}

void date_get_tm(struct tm *timp) {
#if EFI_RTC
	rtcGetTime(&RTCD1, &timespec);
        rtcConvertDateTimeToStructTm(&timespec, timp, NULL);
#endif /* EFI_RTC */
}

static time_t GetTimeUnixSec(void) {
#if EFI_RTC
  struct tm tim;

  rtcGetTime(&RTCD1, &timespec);
  rtcConvertDateTimeToStructTm(&timespec, &tim, NULL);
  return mktime(&tim);
#else
  return (time_t)0;
#endif
}

static void SetTimeUnixSec(time_t unix_time) {
#if EFI_RTC
  struct tm tim;

#if defined __GNUC__
  struct tm *canary;
  /* If the conversion is successful the function returns a pointer
     to the object the result was written into.*/
  canary = localtime_r(&unix_time, &tim);
  osalDbgCheck(&tim == canary);
#else
  struct tm *t = localtime(&unix_time);
  memcpy(&tim, t, sizeof(struct tm));
#endif

  rtcConvertStructTmToDateTime(&tim, 0, &timespec);
  rtcSetTime(&RTCD1, &timespec);
#endif
}

static void put2(int offset, char *lcd_str, int value) {
	static char buff[_MAX_FILLER];
	efiAssertVoid(CUSTOM_ERR_6666, value >=0 && value <100, "value");
	itoa10(buff, value);
	if (value < 10) {
		lcd_str[offset] = '0';
		lcd_str[offset + 1] = buff[0];
	} else {
		lcd_str[offset] = buff[0];
		lcd_str[offset + 1] = buff[1];
	}
}

/**
 * @return true if we seem to know current date, false if no valid RTC state
 */
bool dateToStringShort(char *lcd_str) {
#if EFI_RTC
	strcpy(lcd_str, "0000_000000\0");
	struct tm timp;
	date_get_tm(&timp);
	if (timp.tm_year < 116 || timp.tm_year > 130) {
		// 2016 to 2030 is the valid range
		lcd_str[0] = 0;
		return false;
	}
	put2(0, lcd_str, timp.tm_mon + 1); // months since January	0-11
	put2(2, lcd_str, timp.tm_mday); // day of the month	1-31
	put2(5, lcd_str, timp.tm_hour); // hours since midnight	0-23
	put2(7, lcd_str, timp.tm_min);
	put2(9, lcd_str, timp.tm_sec);

	return true;
#else
	lcd_str[0] = 0;
	return false;
#endif
}

void dateToString(char *lcd_str) {
#if EFI_RTC
	// todo:
	// re-implement this along the lines of 	chvprintf("%04u-%02u-%02u %02u:%02u:%02u\r\n", timp.tm_year + 1900, timp.tm_mon + 1, timp.tm_mday, timp.tm_hour,
	// timp.tm_min, timp.tm_sec);
	// this would require a temporary mem stream - see datalogging and other existing usages

	strcpy(lcd_str, "00/00 00:00:00\0");
	struct tm timp;
	date_get_tm(&timp);			// get RTC date/time
	
	put2(0, lcd_str, timp.tm_mon + 1);
	put2(3, lcd_str, timp.tm_mday);
	put2(6, lcd_str, timp.tm_hour);
	put2(9, lcd_str, timp.tm_min);
	put2(12, lcd_str, timp.tm_sec);

#else
	lcd_str[0] = 0;
#endif /* EFI_RTC */
}

#if EFI_RTC
void printDateTime(void) {
	static time_t unix_time;
	struct tm timp;
	
	unix_time = GetTimeUnixSec();
	if (unix_time == -1) {
		scheduleMsg(&logger, "incorrect time in RTC cell");
	} else {
		scheduleMsg(&logger, "%D - unix time", unix_time);
		date_get_tm(&timp);

		appendMsgPrefix(&logger);
		appendPrintf(&logger, "Current RTC localtime is: %04u-%02u-%02u %02u:%02u:%02u w=%d", timp.tm_year + 1900, timp.tm_mon + 1, timp.tm_mday, timp.tm_hour,
				timp.tm_min, timp.tm_sec, rtcWorks);
		appendMsgPostfix(&logger);
		scheduleLogging(&logger);
	}
}

void setDateTime(const char *strDate) {
	if (strlen(strDate) > 0) {
		time_t unix_time = atoi(strDate);
		if (unix_time > 0) {
			SetTimeUnixSec(unix_time);
			printDateTime();
			return;
		}
	}
	scheduleMsg(&logger, "date_set Date parameter %s is wrong\r\n", strDate);
}
#endif /* EFI_RTC */

void initRtc(void) {
#if EFI_RTC
	GetTimeUnixSec(); // this would test RTC, see 'rtcWorks' variable, see #311
	printMsg(&logger, "initRtc()");
#endif /* EFI_RTC */
}
auto-sync 2015-07-10 06:01:56 -07:00			`/**`
			`* @file rtc_helper.cpp`
			`* @brief Real Time Clock helper`
			`*`
			`* @date Feb 5, 2014`
happy new year unification 2020-01-13 18:57:43 -08:00			`* @author Andrey Belomutskiy, (c) 2012-2020`
auto-sync 2015-07-10 06:01:56 -07:00			`*/`

			`#include <string.h>`
			`#include <time.h>`
refactoring 2018-09-16 19:26:57 -07:00			`#include "global.h"`
Refactoring: OS access should be explicit #867 2019-07-03 18:48:04 -07:00			`#include "os_access.h"`
refactoring: better file name 2019-07-06 17:15:49 -07:00			`#include "os_util.h"`
auto-sync 2015-07-10 06:01:56 -07:00			`#include "rtc_helper.h"`

defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
auto-sync 2015-07-10 06:01:56 -07:00			`static LoggingWithStorage logger("RTC");`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`static RTCDateTime timespec;`
auto-sync 2015-07-10 06:01:56 -07:00
#475 2017-08-25 15:37:59 -07:00			`extern bool rtcWorks;`

auto-sync 2015-07-10 06:01:56 -07:00			`#endif /* EFI_RTC */`

			`void date_set_tm(struct tm *timp) {`
			`(void)timp;`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`rtcConvertStructTmToDateTime(timp, 0, &timespec);`
			`rtcSetTime(&RTCD1, &timespec);`
auto-sync 2015-07-10 06:01:56 -07:00			`#endif /* EFI_RTC */`
			`}`

			`void date_get_tm(struct tm *timp) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`rtcGetTime(&RTCD1, &timespec);`
			`rtcConvertDateTimeToStructTm(&timespec, timp, NULL);`
auto-sync 2015-07-10 06:01:56 -07:00			`#endif /* EFI_RTC */`
			`}`

ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`static time_t GetTimeUnixSec(void) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`struct tm tim;`

			`rtcGetTime(&RTCD1, &timespec);`
			`rtcConvertDateTimeToStructTm(&timespec, &tim, NULL);`
			`return mktime(&tim);`
BOARDSRC_CPP (and compatibility issues) pull request 2017-05-02 10:34:01 -07:00			`#else`
			`return (time_t)0;`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`#endif`
			`}`

			`static void SetTimeUnixSec(time_t unix_time) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`struct tm tim;`

IAR version of the code 2017-04-01 22:02:58 -07:00			`#if defined __GNUC__`
			`struct tm *canary;`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`/* If the conversion is successful the function returns a pointer`
			`to the object the result was written into.*/`
			`canary = localtime_r(&unix_time, &tim);`
			`osalDbgCheck(&tim == canary);`
IAR version of the code 2017-04-01 22:02:58 -07:00			`#else`
even better version 2017-04-01 22:15:03 -07:00			`struct tm *t = localtime(&unix_time);`
			`memcpy(&tim, t, sizeof(struct tm));`
IAR version of the code 2017-04-01 22:02:58 -07:00			`#endif`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00
			`rtcConvertStructTmToDateTime(&tim, 0, &timespec);`
			`rtcSetTime(&RTCD1, &timespec);`
			`#endif`
			`}`

auto-sync 2016-08-08 21:03:08 -07:00			`static void put2(int offset, char *lcd_str, int value) {`
auto-sync 2016-08-09 21:04:24 -07:00			`static char buff[_MAX_FILLER];`
unique error codes #598 2018-07-25 20:03:04 -07:00			`efiAssertVoid(CUSTOM_ERR_6666, value >=0 && value <100, "value");`
auto-sync 2016-08-08 21:03:08 -07:00			`itoa10(buff, value);`
			`if (value < 10) {`
			`lcd_str[offset] = '0';`
			`lcd_str[offset + 1] = buff[0];`
			`} else {`
			`lcd_str[offset] = buff[0];`
			`lcd_str[offset + 1] = buff[1];`
			`}`
			`}`

date docs & message fix 2017-08-22 21:46:34 -07:00			`/**`
			`* @return true if we seem to know current date, false if no valid RTC state`
			`*/`
auto-sync 2016-08-08 21:03:08 -07:00			`bool dateToStringShort(char *lcd_str) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
auto-sync 2016-08-08 21:03:08 -07:00			`strcpy(lcd_str, "0000_000000\0");`
			`struct tm timp;`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`date_get_tm(&timp);`
auto-sync 2016-08-08 21:03:08 -07:00			`if (timp.tm_year < 116 \|\| timp.tm_year > 130) {`
			`// 2016 to 2030 is the valid range`
			`lcd_str[0] = 0;`
			`return false;`
			`}`
date docs & message fix 2017-08-22 21:46:34 -07:00			`put2(0, lcd_str, timp.tm_mon + 1); // months since January 0-11`
			`put2(2, lcd_str, timp.tm_mday); // day of the month 1-31`
			`put2(5, lcd_str, timp.tm_hour); // hours since midnight 0-23`
auto-sync 2016-08-08 21:03:08 -07:00			`put2(7, lcd_str, timp.tm_min);`
			`put2(9, lcd_str, timp.tm_sec);`

			`return true;`
			`#else`
			`lcd_str[0] = 0;`
			`return false;`
			`#endif`
			`}`

auto-sync 2015-07-10 06:01:56 -07:00			`void dateToString(char *lcd_str) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
auto-sync 2015-07-10 06:01:56 -07:00			`// todo:`
			`// re-implement this along the lines of chvprintf("%04u-%02u-%02u %02u:%02u:%02u\r\n", timp.tm_year + 1900, timp.tm_mon + 1, timp.tm_mday, timp.tm_hour,`
			`// timp.tm_min, timp.tm_sec);`
			`// this would require a temporary mem stream - see datalogging and other existing usages`

			`strcpy(lcd_str, "00/00 00:00:00\0");`
			`struct tm timp;`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`date_get_tm(&timp); // get RTC date/time`
auto-sync 2015-07-10 06:01:56 -07:00
auto-sync 2016-08-08 21:03:08 -07:00			`put2(0, lcd_str, timp.tm_mon + 1);`
			`put2(3, lcd_str, timp.tm_mday);`
			`put2(6, lcd_str, timp.tm_hour);`
			`put2(9, lcd_str, timp.tm_min);`
			`put2(12, lcd_str, timp.tm_sec);`

auto-sync 2015-07-10 06:01:56 -07:00			`#else`
			`lcd_str[0] = 0;`
			`#endif /* EFI_RTC */`
			`}`

defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
auto-sync 2015-07-10 06:01:56 -07:00			`void printDateTime(void) {`
			`static time_t unix_time;`
			`struct tm timp;`

ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`unix_time = GetTimeUnixSec();`
auto-sync 2015-07-10 06:01:56 -07:00			`if (unix_time == -1) {`
			`scheduleMsg(&logger, "incorrect time in RTC cell");`
			`} else {`
			`scheduleMsg(&logger, "%D - unix time", unix_time);`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`date_get_tm(&timp);`
auto-sync 2015-07-10 06:01:56 -07:00
			`appendMsgPrefix(&logger);`
#475 2017-08-25 15:37:59 -07:00			`appendPrintf(&logger, "Current RTC localtime is: %04u-%02u-%02u %02u:%02u:%02u w=%d", timp.tm_year + 1900, timp.tm_mon + 1, timp.tm_mday, timp.tm_hour,`
			`timp.tm_min, timp.tm_sec, rtcWorks);`
auto-sync 2015-07-10 06:01:56 -07:00			`appendMsgPostfix(&logger);`
			`scheduleLogging(&logger);`
			`}`
			`}`

			`void setDateTime(const char *strDate) {`
			`if (strlen(strDate) > 0) {`
auto-sync 2016-08-09 18:03:16 -07:00			`time_t unix_time = atoi(strDate);`
auto-sync 2015-07-10 06:01:56 -07:00			`if (unix_time > 0) {`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`SetTimeUnixSec(unix_time);`
auto-sync 2015-07-10 06:01:56 -07:00			`printDateTime();`
			`return;`
			`}`
			`}`
			`scheduleMsg(&logger, "date_set Date parameter %s is wrong\r\n", strDate);`
			`}`
			`#endif /* EFI_RTC */`

			`void initRtc(void) {`
defined(__DOXYGEN__) ? #748 2019-04-12 17:52:51 -07:00			`#if EFI_RTC`
ChibiOS 16.x update. 2017-03-21 11:58:14 -07:00			`GetTimeUnixSec(); // this would test RTC, see 'rtcWorks' variable, see #311`
auto-sync 2015-07-10 06:01:56 -07:00			`printMsg(&logger, "initRtc()");`
auto-sync 2016-09-15 19:02:00 -07:00			`#endif /* EFI_RTC */`
auto-sync 2015-07-10 06:01:56 -07:00			`}`