/*!
* \file systime.c
*
* \brief System time functions implementation.
*
* \copyright Revised BSD License, see section \ref LICENSE.
*
* \code
* ______ _
* / _____) _ | |
* ( (____ _____ ____ _| |_ _____ ____| |__
* \____ \| ___ | (_ _) ___ |/ ___) _ \
* _____) ) ____| | | || |_| ____( (___| | | |
* (______/|_____)_|_|_| \__)_____)\____)_| |_|
* (C)2013-2018 Semtech - STMicroelectronics
*
* \endcode
*
* \author Miguel Luis ( Semtech )
*
* \author Gregory Cristian ( Semtech )
*
* \author MCD Application Team ( STMicroelectronics International )
*/
#include <stdio.h>
#include "rtc-board.h"
#include "systime.h"
#define END_OF_FEBRUARY_LEAP 60 //31+29
#define END_OF_JULY_LEAP 213 //31+29+...
#define END_OF_FEBRUARY_NORM 59 //31+28
#define END_OF_JULY_NORM 212 //31+28+...
#define UNIX_YEAR 68 //1968 is leap year
//UNIX time 0 = start at 01:00:00, 01/01/1970
#define UNIX_HOUR_OFFSET ( ( TM_DAYS_IN_LEAP_YEAR + TM_DAYS_IN_YEAR ) * TM_SECONDS_IN_1DAY )
/*!
* \brief Correction factors
*/
#define DAYS_IN_MONTH_CORRECTION_NORM ( (uint32_t )0x99AAA0 )
#define DAYS_IN_MONTH_CORRECTION_LEAP ( (uint32_t )0x445550 )
/* 365.25 = (366 + 365 + 365 + 365)/4 */
#define DIV_365_25( X ) ( ( ( X ) * 91867 + 22750 ) >> 25 )
#define DIV_APPROX_86400( X ) ( ( ( X ) >> 18 ) + ( ( X ) >> 17 ) )
#define DIV_APPROX_1000( X ) ( ( ( X ) >> 10 ) +( ( X ) >> 16 ) + ( ( X ) >> 17 ) )
#define DIV_APPROX_60( X ) ( ( ( X ) * 17476 ) >> 20 )
#define DIV_APPROX_61( X ) ( ( ( X ) * 68759 ) >> 22 )
#define MODULO_7( X ) ( ( X ) -( ( ( ( ( X ) + 1 ) * 299593 ) >> 21 ) * 7 ) )
/*!
* \brief Calculates ceiling( X / N )
*/
#define DIVC( X, N ) ( ( ( X ) + ( N ) -1 ) / ( N ) )
#define DIVC_BY_4( X ) ( ( ( X ) + 3 ) >>2 )
#define DIVC_BY_2( X ) ( ( ( X ) + 1 ) >> 1 )
static uint32_t CalendarGetMonth( uint32_t days, uint32_t year );
static void CalendarDiv86400( uint32_t in, uint32_t* out, uint32_t* remainder );
static uint32_t CalendarDiv61( uint32_t in );
static void CalendarDiv60( uint32_t in, uint32_t* out, uint32_t* remainder );
const char *WeekDayString[]={ "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" };
SysTime_t SysTimeAdd( SysTime_t a, SysTime_t b )
{
SysTime_t c = { .Seconds = 0, .SubSeconds = 0 };
c.Seconds = a.Seconds + b.Seconds;
c.SubSeconds = a.SubSeconds + b.SubSeconds;
if( c.SubSeconds >= 1000 )
{
c.Seconds++;
c.SubSeconds -= 1000;
}
return c;
}
SysTime_t SysTimeSub( SysTime_t a, SysTime_t b )
{
SysTime_t c = { .Seconds = 0, .SubSeconds = 0 };
c.Seconds = a.Seconds - b.Seconds;
c.SubSeconds = a.SubSeconds - b.SubSeconds;
if( c.SubSeconds < 0 )
{
c.Seconds--;
c.SubSeconds += 1000;
}
return c;
}
void SysTimeSet( SysTime_t sysTime )
{
SysTime_t deltaTime;
SysTime_t calendarTime = { .Seconds = 0, .SubSeconds = 0 };
calendarTime.Seconds = RtcGetCalendarTime( ( uint16_t* )&calendarTime.SubSeconds );
// sysTime is epoch
deltaTime = SysTimeSub( sysTime, calendarTime );
RtcBkupWrite( deltaTime.Seconds, ( uint32_t )deltaTime.SubSeconds );
}
SysTime_t SysTimeGet( void )
{
SysTime_t calendarTime = { .Seconds = 0, .SubSeconds = 0 };
SysTime_t sysTime = { .Seconds = 0, .SubSeconds = 0 };
uint32_t seconds;
uint32_t subSeconds;
calendarTime.Seconds = RtcGetCalendarTime( ( uint16_t* )&calendarTime.SubSeconds );
RtcBkupRead( &seconds, &subSeconds );
SysTime_t deltaTime = { .Seconds = seconds, .SubSeconds = ( int16_t )subSeconds };
sysTime = SysTimeAdd( deltaTime, calendarTime );
return sysTime;
}
SysTime_t SysTimeGetMcuTime( void )
{
SysTime_t calendarTime = { .Seconds = 0, .SubSeconds = 0 };
calendarTime.Seconds = RtcGetCalendarTime( ( uint16_t* )&calendarTime.SubSeconds );
return calendarTime;
}
uint32_t SysTimeToMs( SysTime_t sysTime )
{
uint32_t seconds;
uint32_t subSeconds;
RtcBkupRead( &seconds, &subSeconds );
SysTime_t deltaTime = { .Seconds = seconds, .SubSeconds = ( int16_t )subSeconds };
SysTime_t calendarTime = SysTimeSub( sysTime, deltaTime );
return calendarTime.Seconds * 1000 + calendarTime.SubSeconds;
}
SysTime_t SysTimeFromMs( uint32_t timeMs )
{
uint32_t seconds = timeMs / 1000;
uint32_t subSeconds = timeMs - seconds * 1000;
SysTime_t sysTime = { .Seconds = seconds, .SubSeconds = ( int16_t )subSeconds };
RtcBkupRead( &seconds, &subSeconds );
SysTime_t deltaTime = { .Seconds = seconds, .SubSeconds = ( int16_t )subSeconds };
return SysTimeAdd( sysTime, deltaTime );
}
uint32_t SysTimeMkTime( const struct tm* localtime )
{
uint32_t nbdays;
uint32_t nbsecs;
uint32_t year = localtime->tm_year - UNIX_YEAR;
uint32_t correctionMonth[4] =
{
DAYS_IN_MONTH_CORRECTION_LEAP,
DAYS_IN_MONTH_CORRECTION_NORM,
DAYS_IN_MONTH_CORRECTION_NORM,
DAYS_IN_MONTH_CORRECTION_NORM
};
nbdays = DIVC( ( TM_DAYS_IN_YEAR * 3 + TM_DAYS_IN_LEAP_YEAR ) * year, 4 );
nbdays += ( DIVC_BY_2( ( localtime->tm_mon ) * ( 30 + 31 ) ) -
( ( ( correctionMonth[year % 4] >> ( ( localtime->tm_mon ) * 2 ) ) & 0x03 ) ) );
nbdays += ( localtime->tm_mday - 1 );
// Convert from days to seconds
nbsecs = nbdays * TM_SECONDS_IN_1DAY;
nbsecs += ( ( uint32_t )localtime->tm_sec +
( ( uint32_t )localtime->tm_min * TM_SECONDS_IN_1MINUTE ) +
( ( uint32_t )localtime->tm_hour * TM_SECONDS_IN_1HOUR ) );
return nbsecs - UNIX_HOUR_OFFSET;
}
void SysTimeLocalTime( const uint32_t timestamp, struct tm *localtime )
{
uint32_t correctionMonth[4] =
{
DAYS_IN_MONTH_CORRECTION_LEAP,
DAYS_IN_MONTH_CORRECTION_NORM,
DAYS_IN_MONTH_CORRECTION_NORM,
DAYS_IN_MONTH_CORRECTION_NORM
};
uint32_t weekDays = 1; // Monday 1st January 1968
uint32_t seconds;
uint32_t minutes;
uint32_t days;
uint32_t divOut;
uint32_t divReminder;
CalendarDiv86400( timestamp + UNIX_HOUR_OFFSET, &days, &seconds );
// Calculates seconds
CalendarDiv60( seconds, &minutes, &divReminder );
localtime->tm_sec = ( uint8_t )divReminder;
// Calculates minutes and hours
CalendarDiv60( minutes, &divOut, &divReminder);
localtime->tm_min = ( uint8_t )divReminder;
localtime->tm_hour = ( uint8_t )divOut;
// Calculates year
localtime->tm_year = DIV_365_25( days );
days-= DIVC_BY_4( ( TM_DAYS_IN_YEAR * 3 + TM_DAYS_IN_LEAP_YEAR ) * localtime->tm_year );
localtime->tm_yday = days;
// Calculates month
localtime->tm_mon = CalendarGetMonth( days, localtime->tm_year );
// calculates weekdays
weekDays += DIVC_BY_4( ( localtime->tm_year * 5 ) );
weekDays += days;
localtime->tm_wday = MODULO_7( weekDays );
days -= ( DIVC_BY_2( ( localtime->tm_mon ) * ( 30 + 31 ) ) -
( ( ( correctionMonth[localtime->tm_year % 4] >> ( ( localtime->tm_mon ) * 2 ) ) & 0x03 ) ) );
// Convert 0 to 1 indexed.
localtime->tm_mday = days + 1;
localtime->tm_year += UNIX_YEAR;
localtime->tm_isdst = -1;
}
static uint32_t CalendarGetMonth( uint32_t days, uint32_t year )
{
uint32_t month;
if( ( year % 4 ) == 0 )
{ /*leap year*/
if( days < END_OF_FEBRUARY_LEAP )
{ // January or February
// month = days * 2 / ( 30 + 31 );
month = CalendarDiv61( days * 2 );
}
else if( days < END_OF_JULY_LEAP )
{
month = CalendarDiv61( ( days - END_OF_FEBRUARY_LEAP ) * 2 ) + 2;
}
else
{
month = CalendarDiv61( ( days - END_OF_JULY_LEAP ) * 2 ) + 7;
}
}
else
{
if( days < END_OF_FEBRUARY_NORM )
{ // January or February
month = CalendarDiv61( days * 2 );
}
else if( days < END_OF_JULY_NORM )
{
month = CalendarDiv61( ( days - END_OF_FEBRUARY_NORM ) * 2 ) + 2;
}
else
{
month = CalendarDiv61( ( days - END_OF_JULY_NORM ) * 2 ) + 7;
}
}
return month;
}
static void CalendarDiv86400( uint32_t in, uint32_t* out, uint32_t* remainder )
{
#if 0
*remainder = in % SECONDS_IN_1DAY;
*out = in / SECONDS_IN_1DAY;
#else
uint32_t outTemp = 0;
uint32_t divResult = DIV_APPROX_86400( in );
while( divResult >=1 )
{
outTemp += divResult;
in -= divResult * 86400;
divResult= DIV_APPROX_86400( in );
}
if( in >= 86400 )
{
outTemp += 1;
in -= 86400;
}
*remainder = in;
*out = outTemp;
#endif
}
static uint32_t CalendarDiv61( uint32_t in )
{
#if 0
return( in / 61 );
#else
uint32_t outTemp = 0;
uint32_t divResult = DIV_APPROX_61( in );
while( divResult >=1 )
{
outTemp += divResult;
in -= divResult * 61;
divResult = DIV_APPROX_61( in );
}
if( in >= 61 )
{
outTemp += 1;
in -= 61;
}
return outTemp;
#endif
}
static void CalendarDiv60( uint32_t in, uint32_t* out, uint32_t* remainder )
{
#if 0
*remainder = in % 60;
*out = in / 60;
#else
uint32_t outTemp = 0;
uint32_t divResult = DIV_APPROX_60( in );
while( divResult >=1 )
{
outTemp += divResult;
in -= divResult * 60;
divResult = DIV_APPROX_60( in );
}
if( in >= 60 )
{
outTemp += 1;
in -= 60;
}
*remainder = in;
*out = outTemp;
#endif
}