Shivanand Gowda
Access Control Using RFID MIFARE CARD
Dependencies: MFRC522 NextionLCD
Time.cpp
- Committer:
- shivanandgowdakr
- Date:
- 2018-08-21
- Revision:
- 0:a5d3db2f2625
File content as of revision 0:a5d3db2f2625:
#include "mbed.h"
#include "Time.h"
#include <string>
int Date_Time_Setting(struct tm curt,char *str)
{
int len=0;
len= strlen(str);
// printf("len = %d",len);
if(len < 14)
return 0;
curt.tm_mday = ( str[0]-0x30)*10+(str[1]-0x30);
curt.tm_mon = ( str[2]-0x30)*10+(str[3]-0x30) -1;
curt.tm_year = (( str[4]-0x30)*1000 + (str[5]-0x30)*100 + (str[6]-0x30)*10 + (str[7]-0x30)) -1900 ;
curt.tm_hour=(str[8]-0x30)*10+(str[9]-0x30);
curt.tm_min=(str[10]-0x30)*10+(str[11]-0x30);
curt.tm_sec=(str[12]-0x30)*10+(str[13]-0x30);
time_t epoch = mktime(&curt);
if (epoch == (time_t) -1) {
error("Error in clock setting\n");
// Stop here
}
set_time(epoch);
return 1;
}
int iSetTerminalTime(char *tstring)
{
int ret=0;
struct tm curt;
ret = Date_Time_Setting(curt,tstring);
if(ret == 1) {
wait(1);
// Display_LCD(0,0," DATE-TIME ");
// Display_LCD(0,1," SET SUCCESS ");
printf("Date Time Set succesfully\r\n");
} else {
// Display_LCD(0,0," DATE-TIME ");
// Display_LCD(0,1," SET FAILURE ");
printf("Date Time Set Failure \r\n");
}
wait(2);
// Clear_LCD();
return ret;
}
int chk_time (char *str)
{
int HH,MM,SS;
HH=(str[0]-0x30)*10+(str[1]-0x30);
MM=(str[2]-0x30)*10+(str[3]-0x30);
SS=(str[4]-0x30)*10+(str[5]-0x30);
if ( HH < 0 || HH > 23 || MM < 0 || MM > 59 || SS < 0 || SS > 59 )
return -1;
return 1;
}
int chk_date (char *str)
{
int epos_date=0,epos_month=0,epos_year=0;
epos_date = ( str[0]-0x30)*10+(str[1]-0x30);
epos_month = ( str[2]-0x30)*10+(str[3]-0x30);
epos_year = ( str[4]-0x30)*1000+ (str[5]-0x30)*100 + (str[6]-0x30)*10 + (str[7]-0x30);
if ( epos_month < 1 || epos_date < 1 || epos_date > 31 || epos_month > 12 || epos_year < 2008 ) return ERROR ;
else if(epos_month == 1 || epos_month == 3 || epos_month == 5 || epos_month == 7 || epos_month == 8 || epos_month ==10 ||epos_month == 12) {
if (epos_date > 31)
return -1;
}
else if (epos_month == 4 || epos_month == 6 || epos_month == 9 || epos_month == 11) {
if (epos_date > 30)
return -1;
}
else if (epos_month == 2 )
{
if ( !(epos_year%400) || (epos_year%100 != 0 && epos_year%4==0 ) ) {
if (epos_date > 29 ) return -1;
}
else if( epos_date > 28 ) return -1;
}
return 1;
}
void Get_Date_Time(char *date_string,char *time_string, char *DTSTRING)
{
time_t curr_time;
tm * curr_tm;
time(&curr_time);
curr_tm = localtime(&curr_time);
strftime(date_string,10,"%Y%m%d",curr_tm);
strftime(time_string,10,"%H%M%S",curr_tm);
strftime(DTSTRING,20,"%Y%m%d%H%M%S",curr_tm);
}
void Get_Date_Time(char *date_string,char *time_string)
{
time_t curr_time;
tm * curr_tm;
time(&curr_time);
curr_tm = localtime(&curr_time);
strftime(date_string,10,"%Y%m%d",curr_tm);
strftime(time_string,10,"%H%M%S",curr_tm);
}
void Get_Date_Time_Display( char *DTSTRING)
{
time_t curr_time;
tm * curr_tm;
time(&curr_time);
curr_tm = localtime(&curr_time);
strftime(DTSTRING,29,"%Y/%m/%d %H:%M",curr_tm);
}
void Get_Date_Time( char *DTSTRING)
{
time_t curr_time;
tm * curr_tm;
time(&curr_time);
curr_tm = localtime(&curr_time);
strftime(DTSTRING,20,"%Y%m%d%H%M%S",curr_tm);
}
void Get_Date_Time_Trns( char *DTSTRING)
{
time_t curr_time;
tm * curr_tm;
time(&curr_time);
curr_tm = localtime(&curr_time);
strftime(DTSTRING,20,"%d%m%Y%H%M%S",curr_tm);
}
int is_6_O_Clock(void)
{
char dat[9]={'\0'};
char tim[9]={'\0'};
int HH,MM;
Get_Date_Time(dat,tim);
HH=(tim[0]-0x30)*10+(tim[1]-0x30);
MM=(tim[2]-0x30)*10+(tim[3]-0x30);
if((HH==6) &&(MM <30))
{
// printf("%d:%d\r\n",HH,MM);
return 1;
}
else
{
// printf("%d:%d\r\n",HH,MM);
return 0;
}
}
int Get_Hours(void)
{
char dat[9]={'\0'};
char tim[9]={'\0'};
int HH,MM;
Get_Date_Time(dat,tim);
HH=(tim[0]-0x30)*10+(tim[1]-0x30);
MM=(tim[2]-0x30)*10+(tim[3]-0x30);
return HH;
}