/* * Module_RFID.h * * Created on: 2019|~10?e24?e * Author: Eason Yang */ #ifndef LIB_RFID_H_ #define LIB_RFID_H_ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Standard input/output definitions */ #include #include /* UNIX standard function definitions */ #include /* File control definitions */ #include /* POSIX terminal control definitions */ #include /* Error number definitions */ #include /* String function definitions */ #include #include #include #include typedef struct Rfid { uint8_t snType; // 4 bytes or 6 bytes or 7 bytes or 10 bytes uint8_t cardType; // 0: NONE 1: ISO14443A 2: ISO14443B 4: FELICA uint8_t currentCard[32]; // Current charging cycle start card number uint8_t targetBlock; // RFID read/write target block uint8_t keyType; // 0: Key-A 1: Key-B uint8_t data_Block[32]; // RFID operation block data }RFID; //================================== // Card Length //================================== #define RFID_SN_TYPE_4BYTE 4 #define RFID_SN_TYPE_6BYTE 6 #define RFID_SN_TYPE_7BYTE 7 #define RFID_SN_TYPE_10BYTE 10 //================================== // Card Type //================================== #define NONE 0 #define ISO14443A 1 #define IS014443B 2 #define FELICA 3 char ClaCheckSum(unsigned char *buffer, int len); int system_command(int uart, unsigned char* cmd,int length, unsigned char* rx); bool getRequestCardSN(int Fd, int moduleType,RFID *rfid); bool ISO14443A_REQUEST_SN(int Fd, int moduleType, unsigned char *serialNumber); bool ISO14443B_REQUEST_SN(int Fd, int moduleType, unsigned char *serialNumber); bool FELICA_REQUEST_SN(int Fd, int moduleType, unsigned char *serialNumber); bool getBlockRead(int Fd, int moduleType,int block, unsigned char keyid, unsigned char *data); bool setBlockWrite(int Fd, int moduleType,int block, unsigned char keyid, unsigned char *data); void setBuzzer(int Fd, int moduleType, unsigned char time); void sethaltCard(int Fd, int moduleType); #endif