forked from SZV10X_Software/SZV103_FM33A0xxEV_SiZhu
Soft/system_general_para.c
@@ -1,10 +1,23 @@ #include "system_general_para.h" #include "main.h" #include "extern_rtc.h" //uint8_t read_data_buf_A_l[200] ={0}; //uint8_t read_data_buf_B_l[200] ={0}; //uint8_t read_data_buf_C_l[200] ={0}; __IO FlagStatus sys_run_period; // ϵͳ¼¤»îÖÜÆÚ __IO FlagStatus sys_run_period = RESET; // ϵͳ¼¤»îÖÜÆÚ SYS_DELAY_SEC_PARA_T sys_delay_sec_para_g = { .gprs_timeout_para.delay_flag = RESET, \ .gprs_timeout_para.delay_time = 0, \ .sys_active_time.delay_flag = RESET, \ .sys_active_time.delay_time = SYS_WAKE_UP_TIME, \ .sys_restart_delay_time.delay_flag = RESET, \ .sys_restart_delay_time.delay_time = 180, \ }; FUN_START_CTRL_PARA_T sys_fun_run_ctrl_g; /*******************³£ÓõĴúÂ빤¾ß********************************/ @@ -15,9 +28,9 @@ * output: none * return: none *****************************************/ ErrorStatus ucharcmp(uint8_t *dataA,uint8_t *dataB,u16 data_length) ErrorStatus ucharcmp(uint8_t *dataA,uint8_t *dataB,uint16_t data_length) { u16 index_i=0; uint16_t index_i=0; ErrorStatus return_flag=FAIL; for(index_i=0;index_i<data_length;index_i++) { @@ -49,9 +62,9 @@ * output: none * return: none *****************************************/ void arrayA_2_arrayB(uint8_t * aA , uint8_t * aB, u16 len, BIG_OR_LITTLE_ENDIAN mode) void arrayA_2_arrayB(uint8_t * aA , uint8_t * aB, uint16_t len, BIG_OR_LITTLE_ENDIAN mode) { u16 index; uint16_t index; uint8_t *ptra,*ptrb; if(mode==LITTLE_ENDIAN) @@ -78,3 +91,77 @@ } } /****************************************** * func: IntervalTriggerHandle * desc: ¼ä¸ô´¥·¢£¬Ö»¿¼ÂÇ1ÌìÄڵģ¬¼ä¸ôʱ³¤³¬¹ý1ÌìµÄ²»¿¼ÂÇ£¬±ÈÈç1ÌìÄڵļä¸ô60·ÖÖÓ´¥·¢Ò»´Î * input: IntervalTime¼ä¸ôʱ¼ä£¬µ¥Î»·Ö ; IntervalFirstTimeBCDÊ×´Îʱ¼ä,ʱ£¬·Ö£¬Ê±ÔÚÇ° * output: FlagStatus SET±íʾÉúЧ * return: none *****************************************/ FlagStatus IntervalTriggerHandle(sClockBCD sys_clockBCD_in,uint16_t IntervalTime,uint8_t *IntervalFirstTimeBCD) { //¼ä¸ôÉϱ¨ÔÝʱ²»¿¼ÂǼä¸ô³¬¹ý1440·ÖÖÓ£¬Ò²¾ÍÊdz¬¹ý1Ìì¡£ uint16_t FirstTime; //Ê×´ÎÉϱ¨Ê±¼ä£¬ÕÛËã³É·ÖÖÓ uint16_t NextTime; //Ï´ÎÉϱ¨Ê±¼ä£¬·ÖÖÓ uint16_t CurrentTime;//µ±Ç°Ê±¼ä£¬ÕÛËã³É·ÖÖÓ uint16_t Count_i=0; uint16_t ComparisonsNumber; if(IntervalTime==0) { return RESET; } FirstTime = (uint16_t)BCD_2_DECIMAL(IntervalFirstTimeBCD[0]) * 60 + BCD_2_DECIMAL(IntervalFirstTimeBCD[1]); CurrentTime = (uint16_t)BCD_2_DECIMAL(sys_clockBCD_in.hour) *60 + BCD_2_DECIMAL(sys_clockBCD_in.min); NextTime = FirstTime; ComparisonsNumber = (IntervalTime !=0)? 1440/IntervalTime +1 : 1; if(sys_clockBCD_in.sec == 0) //ΪÁ˼õÉÙ×ÊÔ´ÀË·Ñ£¬Ö»ÓÐÔÚÃëÖÓ=0ʱÅÐ¶Ï { for(Count_i =0;Count_i<ComparisonsNumber;Count_i++) { if(NextTime == CurrentTime ) { return SET; } else { NextTime = NextTime + IntervalTime; //Ï´ÎÉϱ¨Ê±¼äµã if(NextTime>=1440) { NextTime -=1440; } } } } return RESET; } //IO¿ÚÑÓ³ÙÏû¶¶¼ì²â FlagStatus IO_JitterEliminationCheck(GPIO_Type* GPIOx, uint32_t GPIO_Pin,uint16_t delay_time_ms,BitAction bit_status) { if(delay_time_ms>1000) //Ä¿Ç°×î´ó¼ì²â1000msÑÓʱ£¬Ì«´ó×îϵͳÔì³ÉÓ°Ïì return RESET; if(GPIO_ReadInputDataBit(GPIOx, GPIO_Pin) == bit_status){ if(delay_time_ms > 0) delay_ms(delay_time_ms); if(GPIO_ReadInputDataBit(GPIOx, GPIO_Pin) == bit_status){ return SET; }else{ return RESET; } }else{ return RESET; } }
