This short program illustrates how to use the DS130x_I2C library. My objective is to share the same RTC with Microchip 18F MCU.
Dependencies: mbed DebugLibrary
main.cpp
- Committer:
- Yann
- Date:
- 2011-02-09
- Revision:
- 0:f30e2135b0db
- Child:
- 1:995212d326ca
File content as of revision 0:f30e2135b0db:
#include <string> #include <iostream> #include <iomanip> #include "DS130x_I2C.h" #include "EthernetNetIf.h" #include "NTPClient.h" /* * Declare functions */ void AvailableIndicator(); // LED1 flashing for program while program is alive void TimeUpdate(); // Update time from SNTP server void RtcClockEvent(); // Event rise on each RTC.SQW/OUT change char DisplayMenuAndGetChoice(); // Display and get the user choice void SetTimeFromSNTP(); void ForceTime(); void GetTime(); void GetTimeFieldByFiled(); void WriteStdStringValue(const unsigned char p_address, const std::string & p_string); // Write a string void ReadStdStringValue(const unsigned char p_address); // Read a string /* * Declare statics */ EthernetNetIf g_eth; Host g_ntpServer(IpAddr(), 123, "ntp.unice.fr"); NTPClient g_ntp; DigitalOut g_availableLed(LED1); // To verify if program in running InterruptIn g_rtcClock(p5); // Used to trigger event from RTC.SQW/OUT Ticker g_available; // LED1 will flash with a period of 2s Ticker g_timeUpdate; // Update time from SNTP server CDS130X_I2C g_myRTC(0xd0, p28, p27, CDS130X_I2C::One_Hz); // Create an instance of the class C24LCXX_I2C, p28: SDA, p29:SDL, Oscillator mode: 1Hz, on 5V I2C bus int main() { // Launch available indicator g_available.attach(&AvailableIndicator, 2.0); // Initialize the module if (!g_myRTC.Initialize()) { error("Module initialization failed"); } // Initialize Ethernet g_eth.setup(); wait(1); // Needed after Ethernet startup IpAddr ip = g_eth.getIp(); std::cout << "IP address: " << (int)ip[0] << "." << (int)ip[1] << "." << (int)ip[2] << "." << (int)ip[3] << "\r" << std::endl; // Update current time g_ntp.setTime(g_ntpServer); time_t ctTime = time(NULL); std::cout << "Time is now: " << ctime(&ctTime) << " UTC\r" << std::endl; // Start ticker g_timeUpdate.attach(&TimeUpdate, 60.0); // Start RTC.SQW/OUT trigger g_rtcClock.rise(&RtcClockEvent); while (true) { switch (DisplayMenuAndGetChoice()) { case 'a': SetTimeFromSNTP(); break; case 'b': GetTime(); break; case 'c': ForceTime(); break; case 'd': GetTimeFieldByFiled(); break; case 'l': { std::string str("Wellcome to Evil..."); WriteStdStringValue(0x04, str); } break; case 'm': #if defined(__DEBUG) g_myRTC.DumpMemoryArea(0x04, 0x14); #else // __DEBUG std::cout << "DEBUG mode is not set, nothing to do!\r" << std::endl; #endif // __DEBUG break; case 'n': g_myRTC.EraseMemoryArea(0x04, 0x14); break; default: std::cout << "Invalid user choice\r" << std::endl; break; } // End of 'switch' statement } // End of 'while' statement } // End of program - nerver reached void AvailableIndicator() { g_availableLed = !g_availableLed; } // End of AvailableIndicator void TimeUpdate() { // Update current time g_ntp.setTime(g_ntpServer); } // End of TimeUpdate funtion void RtcClockEvent() { /* Www Mmm dd hh:mm:ss yyyy */ struct tm t = g_myRTC.GetTime(); char buffer[32]; strftime(buffer, 32, "%a %m %d %H:%M:%S %Y", &t); DEBUG("RtcClockEvent: '%s'", buffer) } // End of RtcClockEvent() funtion char DisplayMenuAndGetChoice() { std::cout << "\r" << std::endl << "\r" << std::endl << "DS13X_I2C v0.1\r" << std::endl; std::cout << "\tSet time from SNTP server:\ta\r" << std::endl; std::cout << "\tRead time from RTC:\t\tb\r" << std::endl; std::cout << "\tForce time:\t\t\tc\r" << std::endl; std::cout << "\tRead time field:\t\td\r" << std::endl; std::cout << "\tSet second:\t\te\r" << std::endl; std::cout << "\tInc hour:\t\tf\r" << std::endl; std::cout << "\tDec hour:\t\tg\r" << std::endl; std::cout << "\tInc month:\t\th\r" << std::endl; std::cout << "\tDec month:\t\ti\r" << std::endl; std::cout << "\tWrite a string at address 0x04:\tk\r" << std::endl; std::cout << "\tRead a string is address 0x04:\tl\r" << std::endl; std::cout << "\tHexadump from address 0x04:\tm\r" << std::endl; std::cout << "\tErase from address 0x04:\tn\r" << std::endl; std::cout << "Enter your choice: " << std::flush; return getchar(); } void SetTimeFromSNTP() { DEBUG_ENTER("SetTimeFromSNTP") char buffer[32]; time_t seconds = time(NULL); strftime(buffer, 32, "%a %m %d %H:%M:%S %Y", localtime(&seconds)); /* Www Mmm dd hh:mm:ss yyyy */ DEBUG("GetTime: Current date is '%s'", buffer) std::string str(buffer); g_myRTC.SetTime(str); DEBUG_LEAVE("SetTimeFromSNTP") } void ForceTime() { DEBUG_ENTER("ForceTime") // Get time frome user std::cout << "Enter the new date using the format 'Www Mmm dd hh:mm:ss yyyy': "; std::string line; std::cin >> line; int removeCR; if ((removeCR = line.rfind("\r")) != -1) { line.erase(removeCR); } // Set it g_myRTC.SetTime(line); DEBUG_LEAVE("ForceTime") } void GetTime() { struct tm t = g_myRTC.GetTime(); char buffer[32]; strftime(buffer, 32, "%a %m %d %H:%M:%S %Y", &t); DEBUG("GetTime: Current date is '%s'", buffer) } void GetTimeFieldByFiled() { unsigned char value = 0xff; // Get seconds in BCD format g_myRTC.Read(CDS130X_I2C::SecondsAddress, &value); std::cout << "\tSeconds in BCD: " << std::setw(2) << std::setfill('0') << std::ios::hex << value << "\r" << std::endl; // Get seconds in BCD format g_myRTC.Read(CDS130X_I2C::MinutesAddress, &value); std::cout << "\tMinutes in BCD: " << std::setw(2) << std::setfill('0') << std::ios::hex << value << "\r" << std::endl; // Get seconds in BCD format g_myRTC.Read(CDS130X_I2C::HoursAddress, &value); std::cout << "\tHours in BCD: " << std::setw(2) << std::setfill('0') << std::ios::hex << value << "\r" << std::endl; // Get seconds in BCD format g_myRTC.Read(CDS130X_I2C::DayAddress, &value); std::cout << "\tDay in BCD: " << std::setw(2) << std::setfill('0') << std::ios::hex << value << "\r" << std::endl; } void WriteStdStringValue(const unsigned char p_address, const std::string & p_string) { g_myRTC.WriteMemory(p_address, p_string); } void ReadStdStringValue(const unsigned char p_address) { }