/***************************************************************************** ** Main Function main() ******************************************************************************/ int main (void) { /* SystemClockUpdate() updates the SystemFrequency variable */ SystemClockUpdate(); /* Initialize RTC module */ RTCInit(); local_time.RTC_Sec = 0; local_time.RTC_Min = 0; local_time.RTC_Hour = 0; local_time.RTC_Mday = 8; local_time.RTC_Wday = 3; local_time.RTC_Yday = 12; /* current date 07/12/2006 */ local_time.RTC_Mon = 7; local_time.RTC_Year = 2006; RTCSetTime( local_time ); /* Set local time */ alarm_time.RTC_Sec = 0; alarm_time.RTC_Min = 0; alarm_time.RTC_Hour = 0; alarm_time.RTC_Mday = 1; alarm_time.RTC_Wday = 0; alarm_time.RTC_Yday = 1; /* alarm date 01/01/2007 */ alarm_time.RTC_Mon = 1; alarm_time.RTC_Year = 2007; RTCSetAlarm( alarm_time ); /* set alarm time */ NVIC_EnableIRQ(RTC_IRQn); /* mask off alarm mask, turn on IMYEAR in the counter increment interrupt register */ RTCSetAlarmMask(AMRSEC|AMRMIN|AMRHOUR|AMRDOM|AMRDOW|AMRDOY|AMRMON|AMRYEAR); LPC_RTC->CIIR = IMMIN | IMYEAR; /* 2007/01/01/00:00:00 is the alarm on */ RTCStart(); while (1) { /* Loop forever */ current_time = RTCGetTime(); if ( alarm_on != 0 ) { alarm_on = 0; /* Get current time when alarm is on */ current_time = RTCGetTime(); } } }
/***************************************************************************** ** Function name: RTCSetTimeDefault ** ** Descriptions: Setup RTC timer default ** ** parameters: None ** Returned value: None ** *****************************************************************************/ void RTCSetTimeDefault(void) { RTCStop(); g_stTemp_time.RTC_Sec = 0; g_stTemp_time.RTC_Min = 0; g_stTemp_time.RTC_Hour = 0; g_stTemp_time.RTC_Mday = 25; //g_stTemp_time.RTC_Wday = 4; //g_stTemp_time.RTC_Yday = 0; /* Default date 2011/08/25 */ g_stTemp_time.RTC_Mon = 8; g_stTemp_time.RTC_Year = 2011; RTCSetTime( g_stTemp_time ); /* Set local time */ RTCStart(); return; }
uchar setup_p1(uchar para) { uchar status = 0, disp_stat = 0, i; uchar incr_step = 0,val; status = 0; disp_stat = 1; RTclock.timer2 = SETUP_TOUT_MS; //4sec RTclock.timer = 1000; //4sec while((RTclock.timer2 > 0)&&(status < 4)) { if(disp_stat == 1||(status == 0 && RTclock.timer == 0)) { set_cursor (0, 0); sprintf(str,"SETUP TIME "); lcd_print ((const unsigned char*)str); set_cursor (0, 1); sprintf(str,"%02d:%02d:%02d %02d",current_time.RTC_Hour,current_time.RTC_Min,current_time.RTC_Sec,status); lcd_print ((const unsigned char*)str); if(status>2) set_cursor (7, 1); else if(status>1) set_cursor (4, 1); else if(status>0) set_cursor (1, 1); if(status != 0) lcd_write_cmd (0x0F); /* Display ctrl:Disp=ON,Curs/Blnk=ON */ else { RTCGetTime(¤t_time); RTclock.timer = 1000; } disp_stat = 0; } switch(get_evnt_queue()) { // case WE_MODE: // lcd_write_cmd (0x0C); /* Display ctrl:Disp=ON,Curs/Blnk=OFF */ // status = 4; // break; case WE_ENTER: status++; if(status == 3) current_time.RTC_Sec = 0; if(status > 3) { status = 0; RTCSetTime(current_time); lcd_write_cmd (0x0C); /* Display ctrl:Disp=ON,Curs/Blnk=OFF */ } disp_stat = 1; break; case WE_UPHLD: incr_step = TRUE; case WE_UPKEY: if(status == 1) { if((current_time.RTC_Hour) < 23) current_time.RTC_Hour++; } else if(status == 2) { if((current_time.RTC_Min) < 59) current_time.RTC_Min++; } else if(status == 3) { if((current_time.RTC_Sec) < 59) current_time.RTC_Sec++; } disp_stat = 1; RTclock.timer2 = SETUP_TOUT_MS; //4sec break; case WE_DWNHLD: incr_step = TRUE; case WE_DWNKEY: if(status == 1) { if((current_time.RTC_Hour) > 0) current_time.RTC_Hour--; } else if(status == 2) { if((current_time.RTC_Min) > 0) current_time.RTC_Min--; } else if(status == 3) { if((current_time.RTC_Sec) > 0) current_time.RTC_Sec--; } disp_stat = 1; RTclock.timer2 = SETUP_TOUT_MS; //4sec break; // case WE_UPDWNREL: // incr_step = 0; // RTclock.timer2 = SETUP_TOUT_MS; //4sec // break; default: break; } } lcd_write_cmd (0x0C); /* Display ctrl:Disp=ON,Curs/Blnk=OFF */ return 0; }
int main(void) { static unsigned char buffer[BUFFER_SIZE]; unsigned short i; unsigned char timeout = 3; RTCTime local_time; SystemInit(); // IODIR0 |= (P0_15|P0_16|P0_17); // some outputs for debugging and measures //P0_16 ReadSector() in mmc_spi.c //P0_17 enc28j60 write packet //P0_15 general purpose, BE AWARE ! // uart1Init(B38400, UART_8N1, UART_FIFO_8); // setup the UART uart1Init(B115200, UART_8N1, UART_FIFO_8); // setup the UART rprintf_devopen( uart1_sendchar ); /* init rprintf */ VICIntEnClear = 0xFFFFFFFF; VICIntSelect = 0x00000000; RTCInit(); /* current date 05.08.2007 20:45:00*/ local_time.RTC_Sec = 0; local_time.RTC_Min = 45; local_time.RTC_Hour = 20; local_time.RTC_Mday = 5; local_time.RTC_Wday = 3; // My monday has 0 local_time.RTC_Yday = 1; local_time.RTC_Mon = 8; local_time.RTC_Year = 2007; RTCSetTime( local_time ); /* Set local time */ // RTCStart(); init_timer(); enableIRQ(); printf("Holgi's ARM7 LPC213x MultiFAT Speed Test\n\r"); MMC_IO_Init(); enc28j60_io_init(); // You don't need this ! It's for my board only. while (GetDriveInformation() != F_OK && timeout--) { printf ("MMC/SD-Card not found !\n\r"); HaltCPU(); } ShowDOSConfig(); // show selected DOS details from dosdefs.h /* // test time measurement StartTimer(); timer_value = SetDelay10ms(1000); // delay 10 seconds while(CheckDelay10ms(timer_value)==0); StopTimer(); // stop measure and show results // result is 2MB in 10s -> 200kB/s // end test time measurement */ printf("\nTest directory functions\n"); Chdir("dir1"); Remove("dir4"); Chdir("/"); // Back to root Remove("dir1"); Mkdir("dir1"); Chdir("dir1"); Mkdir("dir2"); Mkdir("dir3"); Rename("dir3","dir4"); Remove("dir2"); // You should have now: // dir1/dir4 Chdir("/"); // Back to root printf("\nDeleting files\n"); Remove("01.bin"); //Remove last data Remove("02.bin"); Remove("04.bin"); Remove("08.bin"); Remove("16.bin"); Remove("32.bin"); Remove("64.bin"); Remove("77.bin"); Remove("128.bin"); Remove("MAX.bin"); //Fill the test buffer for(i=0; i<BUFFER_SIZE; i++) buffer[i]=(unsigned char)(i); printf("\nStart writing files\n"); WriteTestFile("01.bin",buffer,1); WriteTestFile("02.bin",buffer,2); WriteTestFile("04.bin",buffer,4); WriteTestFile("08.bin",buffer,8); WriteTestFile("16.bin",buffer,16); WriteTestFile("32.bin",buffer,32); WriteTestFile("64.bin",buffer,64); WriteTestFile("77.bin",buffer,77); WriteTestFile("128.bin",buffer,128); WriteTestFile("MAX.bin",buffer,BUFFER_SIZE); printf("\nStart reading files\n"); ReadTestFile("01.bin",buffer,1); ReadTestFile("02.bin",buffer,2); ReadTestFile("04.bin",buffer,4); ReadTestFile("08.bin",buffer,8); ReadTestFile("16.bin",buffer,16); ReadTestFile("32.bin",buffer,32); ReadTestFile("64.bin",buffer,64); ReadTestFile("77.bin",buffer,77); ReadTestFile("128.bin",buffer,128); ReadTestFile("MAX.bin",buffer,BUFFER_SIZE); printf("\nVerifying files\n"); VerifyTestFile("32.bin",buffer,32); VerifyTestFile("64.bin",buffer,64); VerifyTestFile("77.bin",buffer,77); VerifyTestFile("128.bin",buffer,128); VerifyTestFile("MAX.bin",buffer,BUFFER_SIZE); printf("Test done.\n"); // test if RTC is running local_time=RTCGetTime(); printf("%02u:%02u:%02u %02u.%02u.%04u\n\r",local_time.RTC_Hour,local_time.RTC_Min,local_time.RTC_Sec ,local_time.RTC_Mday,local_time.RTC_Mon,local_time.RTC_Year ); while(1) { /* if(CheckDelay10ms(timer_value)) { timer_value = SetDelay10ms(1000); // delay 10 seconds // test if RTC is running local_time=RTCGetTime(); printf("%02u:%02u:%02u %02u.%02u.%04u\n\r",local_time.RTC_Hour,local_time.RTC_Min,local_time.RTC_Sec ,local_time.RTC_Mday,local_time.RTC_Mon,local_time.RTC_Year ); } */ } return(0); }
/***************************************************************************** ** Main Function rtc_main() ******************************************************************************/ void rtc_main (void) { /* SystemClockUpdate() updates the SystemFrequency variable */ SystemCoreClockUpdate(); /* Initialize RTC module */ RTCInit(); GUIDEMO_ShowIntro("Real Time Clock", "Showing" "\nReal Time Clock" "\nBy Siddharth Kaul"); GUI_Clear(); GUI_SetBkColor(GUI_BLUE); GUI_SetColor(GUI_LIGHTRED); GUI_Clear(); GUI_SetFont(&GUI_Font24B_1); local_time.RTC_Sec = 0; local_time.RTC_Min = 0; local_time.RTC_Hour = 0; local_time.RTC_Mday = 8; local_time.RTC_Wday = 3; local_time.RTC_Yday = 12; /* current date 07/12/2006 */ local_time.RTC_Mon = 7; local_time.RTC_Year = 2006; RTCSetTime( local_time ); /* Set local time */ alarm_time.RTC_Sec = 0; alarm_time.RTC_Min = 0; alarm_time.RTC_Hour = 0; alarm_time.RTC_Mday = 1; alarm_time.RTC_Wday = 0; alarm_time.RTC_Yday = 1; /* alarm date 01/01/2007 */ alarm_time.RTC_Mon = 1; alarm_time.RTC_Year = 2007; RTCSetAlarm( alarm_time ); /* set alarm time */ NVIC_EnableIRQ(RTC_IRQn); /* mask off alarm mask, turn on IMYEAR in the counter increment interrupt register */ RTCSetAlarmMask(AMRSEC|AMRMIN|AMRHOUR|AMRDOM|AMRDOW|AMRDOY|AMRMON|AMRYEAR); LPC_RTC->CIIR = IMMIN | IMYEAR; /* 2007/01/01/00:00:00 is the alarm on */ RTCStart(); while (1) { /* Loop forever */ current_time = RTCGetTime(); { char rtc_sec,rtc_min,rtc_hour; rtc_sec = current_time.RTC_Sec; rtc_min = current_time.RTC_Min; rtc_hour = current_time.RTC_Hour; GUI_DispCharAt(rtc_sec, 10, 10); GUI_DispCharAt(rtc_min, 14, 20); GUI_DispCharAt(rtc_hour, 18, 30); } } }