#include "system_mem_para.h" #include "mbcrc.h" #include "eeprom.h" #include "system_eep_mem_manage.h" #include "rs485_data_analysis_pro.h" SYSTEM_EEP_IDENTIFICATION_T system_eep_id_g; EQUIPMENT_BASIC_INF_T equipment_basic_inf_g={ .product_type= DM_SCM_SZV103, \ .caliber_type = DN50_TYPE, \ .valve_type = VM_HADE, \ .equipment_type = EM_SIFRCT,}; MAIN_EQUIPM_HARDWARE_SOFTWARE_INF_T main_equipment_hardware_software_inf_g; LCD_EQUIPM_HARDWARE_SOFTWARE_INF_T lcd_equipment_hardware_software_inf_g; WIRELESS_EQUIPM_HARDWARE_SOFTWARE_INF_T wireless_equipment_hardware_software_inf_g; __IO SAVE_REALTIME_DATA_T save_realtime_data_g; __IO SAVE_VALVE_PARA_T save_valve_para_g={ .valve_status = VALVE_NONE, \ .valve_lock_state = VL_UNLOCK,}; FLOW_METER_PARA_T flow_meter_para_g ={ .flow_meter_conn_type = FLOW_METER_CONN_RS485, \ .flow_meter_code = SIZHUMODBUSV2_0, \ .pulse_width = 50, \ .baudrate_code = BAUDRATE_9600, \ .parity_bit = PARITY_NONE, \ .output_voltage_code = RS485_V1_5V, \ .slave_address = 1, }; TEM_PRE_PARA_T tem_pre_para_g = { .tem_up_limit = 70, \ .tem_up_up_limit = 70, \ .tem_low_limit = -20, \ .tem_low_low_limit = -25, \ .ambient_tem_up_limit = 60, \ .ambient_tem_low_limit = -25, \ .pre_up_limit = 1600, \ .pre_up_up_limit = 1920, \ .pre_low_limit = 70, \ .pre_low_low_limit = 70, \ }; MEASURE_FREEZE_PARA_T measure_freeze_para_g = { .freeze_interval = 60, \ .daily_freeze_time_BCD = {0x00,0x00}, \ }; BAT_PARA_T bat_para_g = { .lith_bat_low_v = 55, \ .lith_bat_under_v = 50, \ .alka_bat_low_v = 55, \ .alka_bat_under_v = 50, \ .lith_bat_max_hour = 26280, \ .lith_bat_used_hour = 0, \ .lith_bat_used_sec = 0, \ }; LOGIN_PASSWORD_T login_passeord_g = { .PC_general_user_password = {0x68,0x68}, \ .PC_advanced_user_password = {0x52,0x86}, \ .PC_manage_user_password = {0x75,0x97}, \ }; WRC_PARA_SIZHU_T wrc_para_sizhu_g = { .ip1 = {120,77,85,236}, \ .ip_port1 = 9692, \ .ip1_connect_type = LINK_TCP, \ .ip2 = {120,77,85,236}, \ .ip_port2 = 9692, \ .ip2_connect_type = LINK_TCP, \ .bat_power_data_interval = 60, \ .ext_power_data_interval = 60, \ .time_start_type = WRC_TIME_START_INTERVAL, \ .bat_power_send_interval = 1440, \ .ext_power_send_interval = 60, \ .send_first_time_BCD ={0x05,0x20} , \ .timing_send_num = 1, \ .timing_send_time_BCD = {{0x05,0x20}}, \ .retransmission_interval = 10, \ .retransmission_num = 0, \ .comm_timeout_time =120, \ .KVer_AES_128[0] ={8, 7, 6, 5, 4, 3, 2, 1, 0, 0, 0, 0, 0, 0, 0, 0}, \ }; BILLING_VALVE_CTRL_PATA_T billing_valve_ctrl_para_g = { .balance_valve_ctrl_byte = {0}, \ .conditional_valve_ctrl_byte = {0}, \ .balance_small_value = {500,100,0,0,0}, \ .cumulate_flow_threshold = 0, \ .no_wrc_days = 3, \ .no_use_gas_days = 0, \ }; //EEPROM²ÎÊýдÈëºÍ¶ÁÈ¡¼ì²é,Ö»Ö§³Ö1024¸ö×Ö½ÚµÄдÈëÓë¶ÁÈ¡¼ì²é ErrorStatus eepWriteAndReadCheck(uint8_t * write_data,uint32_t addr,uint16_t length) { uint8_t buf_l[1024]; if(length >1024) return FAIL; EEPROM_MultipleWrite(write_data,addr,length); EEPROM_MultipleRead(buf_l,addr,length); return ucharcmp(write_data,buf_l,length); } //EEPROM²ÎÊýABÇø¶à·ÝдÈëºÍ¶ÁÈ¡¼ì²é ErrorStatus eepABWriteAndReadCheck(uint8_t * write_data,uint32_t addrA,uint32_t addrB,uint16_t length) { ErrorStatus return_flag = PASS; if(eepWriteAndReadCheck(write_data,addrA,length)==FAIL) { if(eepWriteAndReadCheck(write_data,addrA,length)==FAIL) { return_flag = FAIL; } } if(eepWriteAndReadCheck(write_data,addrB,length)==FAIL) { if(eepWriteAndReadCheck(write_data,addrB,length)==FAIL) { return_flag = FAIL; } } return return_flag; } //EEPROM²ÎÊý¶ÁÈ¡²¢¼ì²é£¬Ö»Ö§³Ö×î´ó1024×Ö½Ú¶ÁÈ¡ ErrorStatus eepABReadCheck(uint8_t * write_data,uint32_t addrA,uint32_t addrB,uint16_t length) { ErrorStatus read_flag = FAIL; uint16_t CRC16_MODBUS; uint8_t buf_l[1024]={0}; const uint8_t read_times = 2; uint8_t count_i = 0; if(length >1024) return FAIL; for(count_i=0;count_i< read_times;count_i++) { memset (buf_l,0,sizeof (buf_l)); EEPROM_MultipleRead(buf_l,addrA,length); CRC16_MODBUS = usMBCRC16(0xFFFF, &buf_l[CRC16_MODBUS_OFFSET], length - CRC16_MODBUS_OFFSET ); if((buf_l[1]*256 + buf_l[0])==CRC16_MODBUS) { read_flag = PASS; break; } } if(read_flag == PASS) { arrayA_2_arrayB(buf_l, write_data, length, LITTLE_ENDIAN) ; return PASS; }else { for(count_i=0;count_i< read_times;count_i++) { memset (buf_l,0,sizeof (buf_l)); EEPROM_MultipleRead(buf_l,addrB,length); CRC16_MODBUS = usMBCRC16(0xFFFF, &buf_l[CRC16_MODBUS_OFFSET], length - CRC16_MODBUS_OFFSET ); if((buf_l[1]*256 + buf_l[0])==CRC16_MODBUS) { read_flag = PASS; break; } } if(read_flag == PASS) { arrayA_2_arrayB(buf_l, write_data, length, LITTLE_ENDIAN) ; EEPROM_MultipleWrite(buf_l,addrA,length);//AÇøУÑé´íÎó£¬BÇøÕýÈ·£¬Ôò½«BÇøÊý¾ÝдÈëAÇø return PASS; }else { return FAIL; } } } //²ÎÊý¼ÆËãCRCºóÔÙдÈëAB´æ´¢Çø ErrorStatus paraCalcCrcAndWriteEepAB(uint8_t * write_data,uint32_t addrA,uint32_t addrB,uint16_t length) { uint16_t CRC16_MODBUS; CRC16_MODBUS = usMBCRC16(0xFFFF, write_data + CRC16_MODBUS_OFFSET, length - CRC16_MODBUS_OFFSET ); *write_data = CRC16_MODBUS&0xff; *(write_data + 1) = (CRC16_MODBUS>>8)&0xff; if(eepABWriteAndReadCheck(write_data,addrA,addrB,length) == FAIL) { return FAIL; }else { return PASS; } } //ϵͳ´æ´¢±êʶ³õʼ»¯Ð´Èë ErrorStatus systemEepIdDefaultInit(void) { system_eep_id_g.eep_para_init_config_id = EEP_PARA_INIT_ID; system_eep_id_g.eep_para_patch_id = LAST_PATCH_ID; memset(system_eep_id_g.reserve,0,sizeof (system_eep_id_g.reserve)); return paraCalcCrcAndWriteEepAB((uint8_t * )&system_eep_id_g,SYSTEM_EEP_ID_ADDR,SYSTEM_EEP_ID_ADDR + PARA_EEP_B_OFFSET_ADDR,SYSTEM_EEP_IDENTIFICATION_LENGTH); } //ϵͳ´æ´¢±êʶ¶ÁÈ¡ ErrorStatus systemEepIdReadFromEep(void) { if( eepABReadCheck((uint8_t * )&system_eep_id_g,SYSTEM_EEP_ID_ADDR,SYSTEM_EEP_ID_ADDR + PARA_EEP_B_OFFSET_ADDR,SYSTEM_EEP_IDENTIFICATION_LENGTH) == FAIL) { systemEepIdDefaultInit(); return FAIL; }else { return PASS; } } //?ËùÓвÎÊý³õʼ»¯ÎªÄ¬ÈÏÖµ²¢Ð´ÈëEEPROM void allParaDefaultInit(void) { ErrorStatus return_flag = PASS; //ϵͳ´æ´¢±êʶ³õʼ»¯Ð´Èë if(systemEepIdDefaultInit()==FAIL) return_flag = FAIL; //É豸»ù´¡ÐÅÏ¢³õʼ»¯Ð´Èë //?¼ÌÐø²¹³ä£¬°üÀ¨¿ØÖÆÈÕÖ¾´æ´¢µÄ²ÎÊý //ʵʱÊý¾Ý³õʼ»¯Ð´Èë //×îÖÕÅжÏreturn_flag==FAIL£¬Ôò±¨¾¯´æ´¢Òì³££¬Èç¹û»¹ÓÐÕâ¸ö±¨¾¯µÄ»° } //?ËùÓвÎÊýÖ±½Ó¶ÁÈ¡ void allParaReadFromEep(void) { ErrorStatus return_flag = PASS; //ϵͳ´æ´¢±êʶ¶ÁÈ¡ if(systemEepIdReadFromEep()==FAIL) return_flag = FAIL; //É豸»ù´¡ÐÅÏ¢¶ÁÈ¡ //?¼ÌÐø²¹³ä£¬°üÀ¨¿ØÖÆÈÕÖ¾´æ´¢µÄ²ÎÊý //×îÖÕÅжÏreturn_flag==FAIL£¬Ôò±¨¾¯´æ´¢Òì³££¬Èç¹û»¹ÓÐÕâ¸ö±¨¾¯µÄ»° } //²¹¶¡1 void eepParaPatchPro_1(void) { //¿Õ } //²¹¶¡2 void eepParaPatchPro_2(void) { //½«ÐèÒª³õʼ»¯µÄ²ÎÊýÐÞ¸ÄÖ®ºó£¬ÔÙÖØд洢 } void allParaPatchPro(void) { uint8_t patch_id_need_write = 0 ; //·Ç0´ú±íÐèÒªÖØÐÂдpatch_idµ½´æ´¢ //¿ÉÒÔ¿¼ÂDz¹¶¡±êʶµÄʶ±ð£¬Ò»°ãÀ´ËµÐ¡ÓÚEEP_PARA_PATCH_ID_1 »òÕß´óÓÚ0x50000000ÊÇ´íÎóµÄ£¬³öÏÖ×ÖĸҲÊÇ´íÎóµÄ if(system_eep_id_g.eep_para_patch_id < EEP_PARA_PATCH_ID_1) { eepParaPatchPro_1(); system_eep_id_g.eep_para_patch_id = EEP_PARA_PATCH_ID_1; patch_id_need_write = 1; } //´Ë´¦¼ÌÐøÔö¼ÓºóÐø²¹¶¡ // if(system_eep_id_g.eep_para_patch_id < EEP_PARA_PATCH_ID_2) // { // eepParaPatchPro_2(); // system_eep_id_g.eep_para_patch_id = EEP_PARA_PATCH_ID_2; // patch_id_need_write = 1; // } if(patch_id_need_write!=0) { paraCalcCrcAndWriteEepAB((uint8_t * )&system_eep_id_g,SYSTEM_EEP_ID_ADDR,SYSTEM_EEP_ID_ADDR + PARA_EEP_B_OFFSET_ADDR,SYSTEM_EEP_IDENTIFICATION_LENGTH); } }