CDMS code for testing sbc
Dependencies: FreescaleIAP SimpleDMA mbed-rtos mbed
Fork of CDMS_CODE by
main.cpp
- Committer:
- ee12b079
- Date:
- 2016-04-02
- Revision:
- 145:fb800fecf128
- Parent:
- 136:8074893cd24e
File content as of revision 145:fb800fecf128:
// TESTING PUSH PULL IN MAIN CPP #include "mbed.h" char PL_I2C_DATA[150];//Payload i2c array uint8_t rcv_isr = 0; // flag for interrupt #define DEBUG 0 #define SDCARD 0 #define I2C_PL 1 #include "SimpleDMA.h" #include "dmaSPIslave.h" #include "rtos.h" #include "mbed_debug.h" #include "Structures.h" #include "pinconfig.h" #include "DefinitionsAndGlobals.h" #include "crc.h" #include "i2c.h" #include "COM_SND_TM_functions.h" #include "COM_SND_TM.h" #include "cdms_sd.h" //#include "CDMS_HK.h" #include "OBSRS.h" #include "adf.h" #include "COM_RCV_TC.h" #include "COM_MNG_TMTC.h" #include "COM_POWER_ON_TX.h" #include "COM_POWER_OFF_TX.h" #include "Compression.h" #include "ThreadsAndFunctions.h" //void set_sig(){gSCIENCE_THREAD->signal_set(SCIENCE_SIGNAL);} char pia1 [13] ; void INIT_TC_TEMP (void) { int i; uint16_t CRC_VALUE = 0 ; pia1[0] = 123 ; pia1[1] = 0x00 ; pia1[2] = 0x81 ; pia1[3] = 0xD0 ; pia1[4] = 0x00 ; pia1[5] = 0x00 ; pia1[6] = 0x00 ; pia1[7] = 0x00 ; pia1[8] = 0x00 ; CRC_VALUE = crc16_gen1(pia1,9); pia1[9] = (char)((CRC_VALUE >> 8) & 0xff); pia1[10] = (char)((CRC_VALUE >> 0) & 0xff); for(i = 0; i < 13 ; i++) { PL_I2C_DATA[i]= 0; } } int main() { //gLEDR = 1; // ******************INITIALISATIONS START****************** // COM RX RX1M.baud(1200); gRX_HEAD_DATA_NODE = new COM_RX_DATA_NODE; gRX_HEAD_DATA_NODE->next_node = NULL; gRX_CURRENT_DATA_NODE = gRX_HEAD_DATA_NODE; gRX_COUNT = 0; // gRX_CURRENT_PTR = gRX_CURRENT_DATA_NODE->values; RX1M.attach(&rx_read, Serial::RxIrq); //I2C to Payload (depends on pl interrupt design) PYLD_I2C_Int.rise(&isr_pyldtm); // DEBUG //gPC.puts("welcome to mng_tm_tc\r\n"); gPC.baud(115200); // COMMON SPI spi.format(8,0); spi.frequency(1000000); // SD CARD cs_sd = 1; gCS_RTC = 1; gCS_ADF = 1; //FCTN_CDMS_INIT_RTC();/* rtc initialization*/ #if SDCARD FCTN_CDMS_SD_INIT();/* sd card initialization*/ #endif #if DEBUG gPC.puts("welcome to mng_tmtc\r\n"); #endif // COM_MNG_TMTC THREAD gCOM_MNG_TMTC_THREAD = new Thread(COM_MNG_TMTC_FUN); gCOM_MNG_TMTC_THREAD->set_priority(osPriorityAboveNormal); #if DEBUG gPC.puts("allocating threads\r\n"); #endif #if SDCARD gSCIENCE_THREAD = new Thread(SCIENCE_FUN); // gPC.puts("step one complete\r\n"); gSCIENCE_THREAD->set_priority(osPriorityBelowNormal); #endif #if DEBUG gPC.puts("competed allocating threads\r\n"); #endif // *******************INITIALISATIONS END******************** //RtosTimer gCDMS_HK_TIMER(FCTN_CDMS_HK_MAIN, osTimerPeriodic); //gCDMS_HK_TIMER.start(5000); /*starting the thread with signal*/ // set_sig(); /*Calculating Stack used*/ int state; /*while (true) { Thread::wait(500); state = gSCIENCE_THREAD->get_state(); //gPC.printf("Thread state %d\r\n", state); if(state == Thread::Inactive) {delete gSCIENCE_THREAD; break;} }*/ INIT_TC_TEMP(); master.frequency(400000); int i =0 ; char test[1] ; test[0] = 7; while(true){ Thread::wait(osWaitForever); //state = gCOM_MNG_TMTC_THREAD->get_state() + '0'; gLEDG = !gLEDG; //gPC.putc(state); } }