CDMS integrated with pyld b4 checking
Dependencies: SDFileSystem mbed-rtos mbed-src mbed
Fork of cdms_i2csdrtc by
main.cpp
- Committer:
- sureshsusurla
- Date:
- 2015-03-13
- Revision:
- 0:2e3d21e95c97
- Child:
- 1:59da9694681e
File content as of revision 0:2e3d21e95c97:
#include "mbed.h" #include "SDFileSystem.h" /************************Include the required Header files for the code *******************************/ #include "mbed.h" #include "string.h" /********************************** Function Prototypes declaration ***********************************/ int FUNC_CDMS_hex2int(int); // Need to convert the RTC time values to integers void FUNC_CDMS_Gettime(void); // Function to get the time values from RTC registers void FUNC_CDMS_init_values(void); // Function to initialize the registers in the RTC /***************** Configure the SPI1 of the CDMS uc as the data bus for the RTC***********************/ SPI spi(PTE1,PTE3, PTE2); // mosi, miso, sclk DigitalOut cs(PTE29); // PTE29 is used for chip select char ch; SDFileSystem sd(PTE1, PTE3, PTE2, PTE22, "sd"); // the pinout on the mbed Cool Components workshop board Serial pc(USBTX, USBRX); // tx, rx char time_stamp[15]; /***********************Initialization function of the RTC********************************************/ void FUNC_CDMS_init_values(void) { cs=0; spi.format(8,3); // Set the data bit with to be of 8 bits, // data tx mode is 3 spi.frequency(1000000); // Set Data rate to be 1 MHz cs = 0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x80); // Send the address of the Seconds register 0x80 spi.write(0x00); // Set seconds value to 0 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x81); // Send the address of the Minutes register 0x81 spi.write(0x00); // Set minutes value to 0 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x82); // Send the address of the Hours register 0x82 spi.write(0x00); // Set hours value to 0 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x83); // Send the address of the Day register 0x83 spi.write(0x01); // Set the day to 01 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x84); // Send the address of the date register 0x84 spi.write(0x01); // Set date of the month to 01 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x85); // Send the address of the Month register 0x80 spi.write(0x01); // Set month to 01 cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x86); // Send the address of the year register 0x80 spi.write(0x00); // Set year to 00(2000) cs=1; // Set chip select pin to be 1: DeActivate RTC chip }// End of INIT Function /*********************************Function to read the RTC registers*********************************/ void FUNC_CDMS_Gettime() { spi.format(8,3); // Set the data bit with to be of 8 bits, // data tx mode is 3 spi.frequency(1000000); // Set Data rate to be 1 MHz cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x00); // Sending address of seconds register int seconds = spi.write(0x00); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x01); // Sending address of Minutes register int minutes =spi.write(0x01); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x02); // Sending address of hours register int hours =spi.write(0x01); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x03); // Sending address of day register int day =spi.write(0x01); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x04); // Sending address of date register int date =spi.write(0x01); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x05); // Sending address of month register int month =spi.write(0x01); // Read the value by sending dummy byte cs=1; // Set chip select pin to be 1: DeActivate RTC chip cs=0; // Set chip select pin to be 0: Activate RTC chip spi.write(0x06); // Sending address of year register int year =spi.write(0x01); // Read the value by sending dummy byte cs = 1; // Set chip select pin to be 1: DeActivate RTC chip // RTC sends in BCD format.. SO we convert the values generated by RTC to integers year = FUNC_CDMS_hex2int(year); month = FUNC_CDMS_hex2int(month); date = FUNC_CDMS_hex2int(date); day = FUNC_CDMS_hex2int(day); hours = FUNC_CDMS_hex2int(hours); minutes = FUNC_CDMS_hex2int(minutes); seconds = FUNC_CDMS_hex2int(seconds); // Print the obtained Time stamp //printf("The time is :%d %d %d %d %d %d %d \n\r",seconds,minutes,hours,day,date,month,year); sprintf(time_stamp,"%02d%02d%02d%02d%02d%02d",year,month,date,hours,minutes,seconds); printf(" \n\r Received HK data from BAE"); printf("\n HK_data stored in %s.txt",time_stamp); //puts(time_stamp); //printf(".txt"); }//End of Read Function /**************************Function to convert Hex values to Int values*****************************/ int FUNC_CDMS_hex2int(int a) { a=(a/16)*10+(a%16); //function to convert hex type to int type return a; }// End of convert function /******************************************END OF RTC CODE ****************************************/ char count = 10; void store_data() { FUNC_CDMS_Gettime(); char hk_data[25]; count++; strcpy(hk_data,"hk_Data "); strcat(hk_data,"!@@#"); hk_data[10] = count; //storedata(hk_data); mkdir("/sd/hk", 0777); char add[20]; strcpy(add,"/sd/hk/"); strcat(add,time_stamp); strcat(add,".txt"); FILE *fp = fopen(add, "w"); if(fp == NULL) { error("Could not open file for write\n"); } else { fprintf(fp, "%s ",hk_data); fclose(fp); printf("\n File stored in SD card\n"); //printf("\n Reading from the file .... \n Data is %s\n",hk_data); } } //void create_file() //{ /* fprintf(fp, "Hello fun SD Card World!\n"); fclose(fp); fp = fopen("/sd/mydir/sdtest.txt", "r"); if(fp == NULL) { error("Could not open file for write\n"); } //fprintf(fp, "Hello fun SD Card World!"); // fprintf("The contents of %s file are :\n", "/sd/mydir/sdtest.txt"); while( ( ch = fgetc(fp) ) != '\n' ) { pc.printf("%c",ch); } //fprintf(fp); fclose(fp); printf("Jai Mata Di..Goodbye World!\n");*/ //} Ticker t; int main() { printf("IITMSAT - CDMS\n"); FUNC_CDMS_init_values(); t.attach(&store_data, 20.0); while(1); }