publishing to check changes in cdms code
Dependencies: FreescaleIAP SimpleDMA mbed-rtos mbed
Fork of CDMS_CODE_samp_23SEP_DMA_flag by
FMS_all.h
- Committer:
- chaithanyarss
- Date:
- 2016-07-08
- Revision:
- 248:407ab7e337cd
- Parent:
- 235:c127b15409b2
- Child:
- 249:1560c64adffb
File content as of revision 248:407ab7e337cd:
/*===================================================FMS Functions=================================================*/ //Run processes void P_PL_INIT(); void P_PL_MAIN(); void P_COM_INIT(); void P_CDMS_HK_MAIN(); void P_PL_RCV_SC_DATA(); void P_CDMS_INIT_SD(); // Switch ON/OFF functions void CDMS_SD_SW_ON(); void CDMS_SD_SW_OFF(); void CDMS_RTC_ON(); void CDMS_RTC_OFF(); void SW_ON_BAE(); void SW_OFF_BAE(); void SW_ON_PL_BEE(); void SW_OFF_PL_BEE(); void SW_ON_PL_EPS(); void SW_OFF_PL_EPS(); void SW_ON_V_A_EN(); void SW_OFF_V_A_EN(); // RST functions void RST_SD(); void SW_RST_BAE(); void SW_RST_PL_BEE(); void RST_BAE(); void RST_PL_BEE(); void CDMS_RESET(); void SYS_PWR_RESET(); // Have to be decided with EPS team. void EPS_V_A_EN(); void EPS_V_C_EN(); void RST_HK_COUNTER(); uint8_t CDMS_RD_SD_HK(uint8_t *); void CDMS_RD_RTC(uint64_t *); void CDMS_CALIB_RTC(); void TOTAL_RESET_WITH_CDMS(); void P_PL_INIT() { } void P_PL_MAIN() { FCTN_CDMS_PL_MAIN((void *)NULL); } void P_COM_INIT() { P_COM_INIT; } void P_CDMS_HK_MAIN() { FCTN_CDMS_HK_MAIN((void *)NULL); } void P_PL_RCV_SC_DATA() { } void P_CDMS_INIT_SD() { FCTN_CDMS_SD_INIT(); } void CDMS_SD_SW_ON() { SD_SW_EN_DS = 0; } void CDMS_SD_SW_OFF() { SD_SW_EN_DS = 1; } void CDMS_RTC_ON() { //FCTN_CDMS_INIT_RTC(); SPI_mutex.lock(); gCS_RTC=1; gCS_RTC=0; spi.write(0x81); //register address with write flag spi.write(0x00);//disabling stop bit in the seconds register SPI_mutex.unlock(); } void CDMS_RTC_OFF() { SPI_mutex.lock(); gCS_RTC=1; gCS_RTC=0; spi.write(0x81); //register address with write flag spi.write(0x80);//enabling stop bit in the seconds register SPI_mutex.unlock(); } void SW_ON_BAE() { BAE_SW_EN_DS = 0; } void SW_OFF_BAE() { BAE_SW_EN_DS = 1; } void SW_ON_PL_BEE() { PYLD_DFF_CLK = 0;\ PYLD_DFF = 1;\ wait_us(1);\ PYLD_DFF_CLK = 1;\ wait_us(1);\ PYLD_DFF_CLK = 0;\ wait_us(1);\ } void SW_OFF_PL_BEE() { PYLD_DFF_CLK = 0; PYLD_DFF = 0; wait_us(1); PYLD_DFF_CLK = 1; wait_us(1); PYLD_DFF_CLK = 0; wait_us(1); } void SW_ON_PL_EPS() { PYLD_EPS_DFF_PWR_CLK = 0;\ PYLD_EPS_DFF_PWR = 1;\ wait_us(1);\ PYLD_EPS_DFF_PWR_CLK = 1;\ wait_us(1);\ PYLD_EPS_DFF_PWR_CLK = 0;\ wait_us(1);\ } void SW_OFF_PL_EPS() { PYLD_EPS_DFF_PWR_CLK = 0;\ PYLD_EPS_DFF_PWR = 0;\ wait_us(1);\ PYLD_EPS_DFF_PWR_CLK = 1;\ wait_us(1);\ PYLD_EPS_DFF_PWR_CLK = 0;\ wait_us(1);\ } void SW_ON_V_A_EN() { TRXY_PWR_CNTRL = 1; TRZ_PWR_CNTRL = 1; } void SW_OFF_V_A_EN() { TRXY_PWR_CNTRL = 0; TRZ_PWR_CNTRL = 0; } void RST_SD() { SD_SW_EN_DS = 1; wait_ms(10); SD_SW_EN_DS = 0; } void SW_RST_BAE() { BAE_SW_EN_DS = 1; wait_ms(10); BAE_SW_EN_DS = 0; } void SW_RST_PL_BEE() { PYLD_DFF = 1; wait_ms(10); PYLD_DFF = 0; } void RST_BAE() { RESET_TO_BAE = 1; wait_ms(10); RESET_TO_BAE = 0; } void RST_PL_BEE() { RESET_TO_PYLD = 1; wait_ms(10); RESET_TO_PYLD = 0; } void CDMS_INTERNAL_RESET() { NVIC_SystemReset(); } void SYS_PWR_RESET() // Have to be decided with EPS team. { } void EPS_V_A_EN() // This is a reset function { TRXY_PWR_CNTRL = 0; TRZ_PWR_CNTRL = 0; wait_ms(10); TRXY_PWR_CNTRL = 1; TRZ_PWR_CNTRL = 1; } void EPS_V_C_EN() // This is a reset function { COM_RX_CNTRL = 0; wait_ms(10); COM_RX_CNTRL = 1; } void RST_HK_COUNTER() { firstCount = true; } uint8_t CDMS_RD_SD_HK(uint8_t *sd_statusbits) { uint8_t p; uint8_t ACK; if(SD_SW_EN_DS != DEVICE_POWERED) { ACK = 0x89; SD_RD_ERROR = 1; //Generate TM } else { p = disk_read_statusbits(sd_statusbits); if(p == 0) ACK = 0xA0; else ACK = 0x89; } return ACK; } void CDMS_RD_RTC(uint64_t *time) { *time = FCTN_CDMS_RD_RTC(); } void CDMS_CALIB_RTC() { } void CDMS_RESET() { NVIC_SystemReset(); } /* //void CDMS_INTERNAL_RESET() { } */ /*===================================================MMS Functions=================================================*/ void READ_RAM(uint8_t *); void WRITE_TO_FLASH(); void READ_FLASH(); void READ_RAM(uint8_t *RAM) { }