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lmx
2025-11-24 16:33:33 +08:00
parent eb9de783ed
commit e19ac5ad00
73 changed files with 2673 additions and 15087 deletions
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89
apps/earphone/remote_control/RFID/include/CPU_CARD.h Normal file
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#ifndef CPU_CARD_H
#define CPU_CARD_H 1
#include "rfid_main.h" // 包含 transmission_struct 的定义
/**
* @brief 存储ATS (Answer to Select) 信息的结构体
*/
struct ATS_STR
{
unsigned char Length; /**< ATS数据长度 */
unsigned char Ats_Data[255]; /**< ATS数据缓冲区 */
};
/**
* @brief 存储PPS (Protocol and Parameter Selection) 信息的结构体
*/
struct PPS_STR
{
unsigned char Length; /**< PPS数据长度 */
unsigned char Pps_Data[1]; /**< PPS数据缓冲区 */
};
/**
* @brief 存储CPU卡通信参数的结构体
*/
struct CPU_CARD_STR
{
unsigned char FSCI; /**< Frame Size for proximity coupling Integer */
unsigned char FSC; /**< Frame Size for proximity coupling (in bytes) */
unsigned char FWI; /**< Frame Waiting time Integer */
unsigned int FWT; /**< Frame Waiting Time (in ms) */
unsigned char SFGI; /**< Start-up Frame Guard time Integer */
unsigned char TA; /**< TA(1) parameter from ATS */
unsigned char TB; /**< TB(1) parameter from ATS */
unsigned char TC; /**< TC(1) parameter from ATS */
unsigned char PCB; /**< Protocol Control Byte */
unsigned char WTXM; /**< Waiting Time eXtension Multiplier */
struct ATS_STR ATS; /**< ATS信息 */
struct PPS_STR PPS; /**< PPS信息 */
};
extern struct CPU_CARD_STR CPU_CARD;
/**
* @brief 解析ATS (Answer to Select) 数据。
* @param ats_len [in] ATS数据的长度。
* @param ats [in] 指向ATS数据的指针。
* @return 操作状态SUCCESS表示成功。
*/
extern unsigned char Ats_Process( unsigned char ats_len, unsigned char *ats );
/**
* @brief CPU卡事件处理函数示例
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char CPU_CARD_EVENT( void );
/**
* @brief 封装了重试逻辑的TPDU传输函数。
* @param tpdu [in, out] 指向传输结构体的指针。
* @return 操作状态。
*/
extern unsigned char CPU_TPDU( transmission_struct *tpdu );
/**
* @brief 发送RATS (Request for Answer to Select) 命令。
* @param ats_len [out] 指向用于存储ATS长度的变量的指针。
* @param ats [out] 指向用于存储ATS数据的缓冲区的指针。
* @return 操作状态SUCCESS表示成功。
*/
extern unsigned char CPU_Rats( unsigned char *ats_len, unsigned char *ats );
/**
* @brief 发送NAK (Negative Acknowledge) 响应。
* @param tpdu [in, out] 指向传输结构体的指针。
* @return 操作状态。
*/
extern unsigned char CPU_NAK( transmission_struct *tpdu );
/**
* @brief 发送APDU (Application Protocol Data Unit) 命令。
* @param apdu [in, out] 指向传输结构体的指针包含APDU命令和响应。
* @return 操作状态。
*/
extern unsigned char CPU_APDU( transmission_struct *apdu );
#endif

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apps/earphone/remote_control/RFID/include/MIFARE.h Normal file
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#ifndef _MIFARE_H_
#define _MIFARE_H_
// 定义Mifare认证密钥类型
#define KEY_A_M1 0
#define KEY_B_M1 1
// 声明全局变量
extern unsigned char SECTOR,BLOCK,BLOCK_NUM;
extern unsigned char BLOCK_DATA[16];
extern unsigned char KEY_A[16][6];
extern unsigned char KEY_B[16][6];
/**
* @brief Mifare卡事件处理函数示例
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char MIFARE_CARD_EVENT(void);
/**
* @brief 清除Mifare卡加密认证标志。
* @return 无。
*/
extern void Mifare_Clear_Crypto(void);
/**
* @brief 将6字节的Mifare密钥加载到芯片的密钥缓冲区。
* @param mifare_key [in] 指向6字节密钥数组的指针。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
unsigned char Mifare_LoadKey(unsigned char *mifare_key);
/**
* @brief 执行Mifare卡的传输Transfer命令。
* @param block [in] 块号。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Transfer(unsigned char block);
/**
* @brief 执行Mifare卡的恢复Restore命令。
* @param block [in] 块号。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Restore(unsigned char block);
/**
* @brief 将4字节数据格式化为Mifare值块格式并写入指定块。
* @param block [in] 目标块号。
* @param data_buff [in] 指向4字节源数据的指针。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Blockset(unsigned char block,unsigned char *data_buff);
/**
* @brief 对Mifare卡的指定值块执行增值操作。
* @param block [in] 值块的块号。
* @param data_buff [in] 指向4字节增值数据的指针。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Blockinc(unsigned char block,unsigned char *data_buff);
/**
* @brief 对Mifare卡的指定值块执行减值操作。
* @param block [in] 值块的块号。
* @param data_buff [in] 指向4字节减值数据的指针。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Blockdec(unsigned char block,unsigned char *data_buff);
/**
* @brief 向Mifare卡写入一个16字节的数据块。
* @param block [in] 要写入的块号 (0x00 - 0x3F)。
* @param data_buff [in] 指向16字节数据的指针。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Blockwrite(unsigned char block,unsigned char *data_buff);
/**
* @brief 从Mifare卡读取一个16字节的数据块。
* @param block [in] 要读取的块号 (0x00 - 0x3F)。
* @param data_buff [out] 指向16字节缓冲区的指针用于存储读取的数据。
* @return 操作状态SUCCESS表示成功FAIL表示失败。
*/
extern unsigned char Mifare_Blockread(unsigned char block,unsigned char *data_buff);
/**
* @brief 对Mifare Classic卡片的指定扇区进行认证。
* @param key_mode [in] 认证模式,`KEY_A_M1` (0) 表示使用密钥A`KEY_B_M1` (1) 表示使用密钥B。
* @param sector [in] 要认证的扇区号 (0-15)。
* @param mifare_key [in] 指向6字节认证密钥的指针。
* @param card_uid [in] 指向4字节卡片UID的指针。
* @return 操作状态SUCCESS表示认证成功FAIL表示失败。
*/
extern unsigned char Mifare_Auth(unsigned char key_mode,unsigned char sector,unsigned char *mifare_key,unsigned char *card_uid);
#endif

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apps/earphone/remote_control/RFID/include/NTAG.h Normal file
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#ifndef _NTAG_H
#define _NTAG_H
extern unsigned char PAGE_DATA[16];
extern unsigned char NTAG_EVENT(void);
extern unsigned char Read_Page(unsigned char page_num,unsigned char *page_data);
extern unsigned char Write_Page(unsigned char page_num,unsigned char *page_data);
#endif

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apps/earphone/remote_control/RFID/include/READER.h Normal file
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/********************************************************************************************************
* @file READER.h
* @brief RFID 读卡器底层驱动及协议头文件
* @details
* 本文件定义了与RFID芯片交互所需的常量、数据结构和函数原型。
*
* @author Kilo Code
* @date 2025-11-24
* @version 1.0
********************************************************************************************************/
#ifndef _READER_H
#define _READER_H
/********************************************************************************************************
* 常量定义
********************************************************************************************************/
// ISO14443A 命令码
static const unsigned char RF_CMD_REQA = 0x26; /**< 请求命令 */
static const unsigned char RF_CMD_WUPA = 0x52; /**< 唤醒命令 */
static const unsigned char RF_CMD_ANTICOLL[3] = {0x93, 0x95, 0x97}; /**< 防冲突命令,根据级联级别选择 */
static const unsigned char RF_CMD_SELECT[3] = {0x93, 0x95, 0x97}; /**< 选择命令,根据级联级别选择 */
// MIFARE Classic 命令码
static const unsigned char RF_CMD_KEYA = 0x60; /**< 密钥A认证 */
static const unsigned char RF_CMD_KEYB = 0x61; /**< 密钥B认证 */
/********************************************************************************************************
* 卡片信息结构体
********************************************************************************************************/
/**
* @brief 存储ISO/IEC 14443 Type B卡片信息的结构体
*/
struct picc_b_struct
{
unsigned char ATQB[12]; /**< REQB/WUPB的响应 (Answer to Request B) */
unsigned char PUPI[4]; /**< Pseudo-Unique PICC Identifier */
unsigned char APPLICATION_DATA[4]; /**< 应用数据 */
unsigned char PROTOCOL_INF[3]; /**< 协议信息 */
unsigned char CID; /**< 卡片ID (Card Identifier) */
unsigned char Answer_to_HALT[1]; /**< HALT命令的响应 */
unsigned char SN[8]; /**< 序列号 (自定义命令获取) */
};
extern struct picc_b_struct PICC_B;
/**
* @brief 存储ISO/IEC 14443 Type A卡片信息的结构体
*/
struct picc_a_struct
{
unsigned char ATQA[2]; /**< REQA/WUPA的响应 (Answer to Request A) */
unsigned char CASCADE_LEVEL; /**< 当前级联级别 (用于处理多级UID) */
unsigned char UID_Length; /**< UID的长度 (4, 7, or 10 bytes) */
unsigned char UID[15]; /**< 卡片唯一ID (Unique Identifier) */
unsigned char BCC[3]; /**< 块校验字符 (Block Check Character) */
unsigned char SAK[3]; /**< 选择确认 (Select Acknowledge) */
};
extern struct picc_a_struct PICC_A;
/**
* @brief 存储ISO/IEC 15693 (Type V) 卡片信息的结构体
*/
struct picc_v_struct
{
unsigned char UID[8]; /**< 卡片唯一ID (Unique Identifier) */
unsigned char RESPONSE; /**< 命令响应标志 */
unsigned char BLOCK_DATA[4]; /**< 读取或写入的块数据 */
};
extern struct picc_v_struct PICC_V;
/**
* @brief 存储FeliCa (Type F) 卡片信息的结构体
*/
struct picc_f_struct
{
unsigned char UID[8]; /**< 卡片唯一ID (Unique Identifier) */
};
extern struct picc_f_struct PICC_F;
/********************************************************************************************************
* 芯片参数配置
********************************************************************************************************/
// --- Type A 参数 ---
#define GAIN_A 7 // 接收增益 (范围 0~7)
#define HPCF_A 3 // 高通滤波器截止频率 (范围 0~7)
#define AMPLITUDE_A 255 // RF场幅度 (范围 0~255)
// --- Type B 参数 ---
#define GAIN_B 7 // 接收增益
#define HPCF_B 3 // 高通滤波器截止频率
#define AMPLITUDE_B 255 // RF场幅度
#define MODULATION_B 100 // 调制深度 (范围 0~255, 值越小调制越深)
// --- Type V (ISO15693) 参数 ---
#define GAIN_V 7 // 接收增益
#define HPCF_V 4 // 高通滤波器截止频率
#define AMPLITUDE_V 255 // RF场幅度
#define MODULATION_V 10 // 调制深度
// --- Type F (FeliCa) 参数 ---
#define GAIN_F 7 // 接收增益
#define HPCF_F 4 // 高通滤波器截止频率
#define AMPLITUDE_F 255 // RF场幅度
#define MODULATION_F 100 // 调制深度
/********************************************************************************************************
* 函数原型声明
********************************************************************************************************/
// --- 通用函数 ---
extern void ModifyReg(unsigned char reg_address, unsigned char mask, unsigned char set);
extern void Clear_FIFO(void);
extern unsigned char SetCommand(unsigned char command);
extern void SetParity(unsigned char state);
extern void SetTimer(unsigned int timeout);
extern unsigned char SetCW(unsigned char mode);
// --- 协议初始化函数 ---
extern unsigned char ReaderA_Initial(void);
extern unsigned char ReaderB_Initial(void);
extern unsigned char ReaderV_Initial(void);
extern unsigned char ReaderF_Initial(void);
// --- Type A 命令 ---
extern unsigned char ReaderA_Wakeeup(struct picc_a_struct *picc_a);
extern unsigned char ReaderA_Request(struct picc_a_struct *picc_a);
extern unsigned char ReaderA_Anticoll(struct picc_a_struct *picc_a);
extern unsigned char ReaderA_Select(struct picc_a_struct *picc_a);
extern unsigned char ReaderA_CardActivate(struct picc_a_struct *picc_a);
// --- Type B 命令 ---
extern unsigned char ReaderB_Wakeup(struct picc_b_struct *picc_b);
extern unsigned char ReaderB_Request(struct picc_b_struct *picc_b);
extern unsigned char ReaderB_Attrib(struct picc_b_struct *picc_b);
extern unsigned char ReaderB_Halt(struct picc_b_struct *picc_b);
extern unsigned char ReaderB_Get_SN(struct picc_b_struct *picc_b);
// --- Type V (ISO15693) 命令 ---
extern unsigned char ReaderV_Inventory(struct picc_v_struct *picc_v);
extern unsigned char ReaderV_Select(struct picc_v_struct *picc_v);
extern unsigned char ReaderV_ReadSingleBlock(unsigned char block_num, struct picc_v_struct *picc_v);
extern unsigned char ReaderV_WriteSingleBlock(unsigned char block_num, struct picc_v_struct *picc_v);
// --- Type F (FeliCa) 命令 ---
extern unsigned char ReaderF_Inventory(struct picc_f_struct *picc_f);
#endif // _READER_H

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apps/earphone/remote_control/RFID/include/READER_REG.h Normal file
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/*********************************************************************
* *
* Copyright (c) 2010 Shanghai FuDan MicroElectronic Inc, Ltd. *
* All rights reserved. Licensed Software Material. *
* *
* Unauthorized use, duplication, or distribution is strictly *
* prohibited by law. *
* *
**********************************************************************/
#ifndef _READER_REG_H
#define _READER_REG_H
#define REG_COMMAND 0x00 //
#define REG_HOSTCTRL 0x01 //
#define REG_FIFOCONTROL 0x02 //
#define REG_WATERLEVEL 0x03 //
#define REG_FIFOLENGTH 0x04 //
#define REG_FIFODATA 0x05 //
#define REG_IRQ0 0x06 //
#define REG_IRQ1 0x07 //
#define REG_IRQ0EN 0x08 //
#define REG_IRQ1EN 0x09 //
#define REG_ERROR 0x0A //
#define REG_STATUS 0x0B //
#define REG_RXBITCTRL 0x0C //
#define REG_RXCOLL 0x0D //
#define REG_TCONTROL 0x0E //
#define REG_T0CONTROL 0x0F //
#define REG_T0RELOADHI 0x10 //
#define REG_T0RELOADLO 0x11 //
#define REG_T0COUNTERVALHI 0x12 //
#define REG_T0COUNTERVALLO 0x13 //
#define REG_T1CONTROL 0x14 //
#define REG_T1RELOADHI 0x15 //
#define REG_T1RELOADLO 0x16 //
#define REG_T1COUNTERVALHI 0x17 //
#define REG_T1COUNTERVALLO 0x18 //
#define REG_T2CONTROL 0x19 //
#define REG_T2RELOADHI 0x1A //
#define REG_T2RELOADLO 0x1B //
#define REG_T2COUNTERVALHI 0x1C //
#define REG_T2COUNTERVALLO 0x1D //
#define REG_T3CONTROL 0x1E //
#define REG_T3RELOADHI 0x1F //
#define REG_T3RELOADLO 0x20 //
#define REG_T3COUNTERVALHI 0x21 //
#define REG_T3COUNTERVALLO 0x22 //
#define REG_T4CONTROL 0x23 //
#define REG_T4RELOADHI 0x24 //
#define REG_T4RELOADLO 0x25 //
#define REG_T4COUNTERVALHI 0x26 //
#define REG_T4COUNTERVALLO 0x27 //
#define REG_TXMODE 0x28
#define REG_TXAMP 0x29
#define REG_TXCON 0x2A //
#define REG_TXI 0x2B //
#define REG_TXCRCCON 0x2C //
#define REG_RXCRCCON 0x2D //
#define REG_TXDATANUM 0x2E
#define REG_TXMODWIDTH 0x2F //
#define REG_TXSYM10BURSTLEN 0x30 //
#define REG_TXWAITCTRL 0x31 //
#define REG_TXWAITLO 0x32 //
#define REG_FRAMECON 0x33 //
#define REG_RXSOFD 0x34 //
#define REG_RXCTRL 0x35 //
#define REG_RXWAIT 0x36 //
#define REG_RXTHRESHOLD 0x37 //
#define REG_RCV 0x38 //
#define REG_RXANA 0x39 //
#define REG_LPCD_OPTIONS 0x3A //
#define REG_SERIALSPEED 0x3B //
#define REG_LFO_TRIMM 0x3C //
#define REG_CLKOUT_CTRL 0x3D //
#define REG_LPCD_THRESHOLD 0x3E //
#define REG_LPCD_QMIN 0x3F //
#define REG_LPCD_QMAX 0x40
#define REG_LPCD_IMIN 0x41
#define REG_LPCD_RESULT_I 0x42
#define REG_LPCD_RESULT_Q 0x43
#define REG_THNADJ 0x5F
#define REG_THNSET 0x61
#define REG_THNMIN 0x62
#define REG_DSP_CTRL1 0x64
#define REG_MISC 0x75
#define REG_RXTXCON 0x77
#define REG_ERROREXT 0x7E
#define REG_VERSION 0x7F
#define CMD_MASK 0x1F
#define CMD_IDLE 0x00
#define CMD_LPCD 0x01
#define CMD_LOADKEY 0x02
#define CMD_AUTHENT 0x03
#define CMD_RECEIVE 0x05
#define CMD_TRANSMIT 0x06
#define CMD_TRANSCEIVE 0x07
#define CMD_WRITEE2 0x08
#define CMD_WRITEE2PAGE 0x09
#define CMD_READE2 0x0A
#define CMD_LOADREG 0x0C
#define CMD_LOADPROTOCOL 0x0D
#define CMD_LOADKEYE2 0x0E
#define CMD_STOREKEYE2 0x0F
#define CMD_CRCCALC 0x1B
#define CMD_READRNR 0x1C
#define CMD_SOFTRESET 0x1F
/** \name Host-Control Register Contents (0x00)
*/
/*@{*/
#define BIT_STANDBY 0x80U /**< Standby bit; If set, the IC transits to standby mode. */
#define BIT_MODEMOFF 0x40U
/*@{*/
/** \name Host-Control Register Contents (0x01)
*/
/*@{*/
#define BIT_I2CFORCEHS 0x01U
//#define BIT_REGEN 0x80U
//#define BIT_BUSHOST 0x40U
//#define BIT_BUSSAM 0x20U
//#define MASK_SAMINTERFACE 0x0CU
/*@}*/
/** \name FIFO-Control Register Contents (0x02)
*/
/*@{*/
#define BIT_FIFOSIZE 0x80U
#define BIT_HIALERT 0x40U
#define BIT_LOALERT 0x20U
#define BIT_FIFOFLUSH 0x10U
#define BIT_WATERLEVEL_HI 0x04U
#define MASK_FIFOLENGTH_HI 0x03U
/*@}*/
/** \name IRQ0 Register(s) Contents (0x06/0x08)
*/
/*@{*/
#define BIT_SET 0x80U
#define BIT_IRQINV 0x80U
#define BIT_HIALERTIRQ 0x40U
#define BIT_LOALERTIRQ 0x20U
#define BIT_IDLEIRQ 0x10U
#define BIT_TXIRQ 0x08U
#define BIT_RXIRQ 0x04U
#define BIT_ERRIRQ 0x02U
#define BIT_RXSOFIRQ 0x01U
/*@}*/
/** \name IRQ1 Register(s) Contents (0x07/0x09)
*/
/*@{*/
/* #define BIT_SET 0x80U */
#define BIT_IRQPUSHPULL 0x80U
#define BIT_GLOBALIRQ 0x40U
#define BIT_IRQPINEN 0x40U
#define BIT_LPCDIRQ 0x20U
#define BIT_TIMER4IRQ 0x10U
#define BIT_TIMER3IRQ 0x08U
#define BIT_TIMER2IRQ 0x04U
#define BIT_TIMER1IRQ 0x02U
#define BIT_TIMER0IRQ 0x01U
/*@}*/
/** \name Error Register Contents (0x0A)
*/
/*@{*/
#define BIT_CMDEE_ERR 0x80U
#define BIT_FIFOWRERR 0x40U
#define BIT_FIFOOVL 0x20U
#define BIT_MINFRAMEERR 0x10U
#define BIT_NODATAERR 0x08U
#define BIT_COLLDET 0x04U
#define BIT_PROTERR 0x02U
#define BIT_INTEGERR 0x01U
/*@}*/
/** \name Status Register Contents (0x0B)
*/
/*@{*/
#define BIT_CRYPTO1ON 0x20U
#define MASK_COMMSTATE 0x07U
/*@}*/
/** \name Rx-Bit-Control Register Contents (0x0C)
*/
/*@{*/
#define BIT_VALUESAFTERCOLL 0x80U
#define BIT_NOCOLL 0x08U
#define MASK_RXALIGN 0x70U
#define MASK_RXLASTBITS 0x07U
/*@}*/
/** \name Rx-Coll Register Contents (0x0D)
*/
/*@{*/
#define BIT_COLLPOSVALID 0x80U
#define MASK_COLLPOS 0x7FU
/*@}*/
/** \name Timer-Control Register Contents (0x0E)
*/
/*@{*/
#define BIT_T3RUNNING 0x80U
#define BIT_T2RUNNING 0x40U
#define BIT_T1RUNNING 0x20U
#define BIT_T0RUNNING 0x10U
#define BIT_T3STARTSTOPNOW 0x08U
#define BIT_T2STARTSTOPNOW 0x04U
#define BIT_T1STARTSTOPNOW 0x02U
#define BIT_T0STARTSTOPNOW 0x01U
/*@}*/
/** \name T[0-3]-Control Register Contents (0x0F/0x14/0x19/0x1E)
*/
/*@{*/
#define BIT_TSTOP_RX 0x80U /**< Stop timer on receive interrupt. */
#define BIT_TAUTORESTARTED 0x08U /**< Auto-restart timer after underflow. */
#define BIT_TSTART_TX 0x10U /**< Start timer on transmit interrupt. */
//#define BIT_TSTART_LFO 0x20U /**< Use this timer for LFO trimming. */
//#define BIT_TSTART_LFO_UV 0x30U /**< Use this timer for LFO trimming (generate UV at a trimming event). */
#define MASK_TSTART 0x30U /**< Mask for TSTART bits. */
#define VALUE_TCLK_1356_MHZ 0x00U /**< Use 13.56MHz as input clock. */
#define VALUE_TCLK_212_KHZ 0x01U /**< Use 212KHz as input clock. */
#define VALUE_TCLK_T0 0x02U /**< Use timer0 as input clock. */
#define VALUE_TCLK_T1 0x03U /**< Use timer1 as input clock. */
/*@}*/
/** \name T4-Control Register Contents (0x23)
*/
/*@{*/
#define BIT_T4RUNNING 0x80U
#define BIT_T4STARTSTOPNOW 0x40U
#define BIT_T4AUTOTRIMM 0x20U
#define BIT_T4AUTOLPCD 0x10U
#define BIT_T4AUTORESTARTED 0x08U
#define BIT_T4AUTOWAKEUP 0x04U
/*#define MASK_TSTART 0x30U*/
#define VALUE_TCLK_LFO_64_KHZ 0x00U
#define VALUE_TCLK_LFO_8_KHZ 0x01U
#define VALUE_TCLK_LFO_4_KHZ 0x02U
#define VALUE_TCLK_LFO_2_KHZ 0x03U
/*@}*/
/** \name Driver Mode Register Contents (0x28)
*/
/*@{*/
#define BIT_TX2INV 0x80U
#define BIT_TX1INV 0x40U
#define BIT_TXEN 0x08U
#define VALUE_TXCLKMODE_HIGHIMPEDANCE 0x00U
#define VALUE_TXCLKMODE_OUTPULL0 0x01U
#define VALUE_TXCLKMODE_OUTPULL1 0x02U
#define VALUE_TXCLKMODE_RFLOWPULL 0x05U
#define VALUE_TXCLKMODE_RFHIGHPUSH 0x06U
#define VALUE_TXCLKMODE_PUSHPULL 0x07U
#define BIT_RFON 0x04U
#define BIT_TPUSHON 0x02U
#define BIT_TPULLON 0x01U
/*@}*/
/** \name Tx Amplifier Register Contents (0x29)
*/
/*@{*/
#define MASK_CW_AMPLITUDE 0x00U
#define MASK_RESIDUAL_CARRIER 0x1FU
/*@}*/
/** \name Driver Control Register Contents (0x2A)
*/
/*@{*/
#define BIT_CWMAX 0x08U
#define BIT_DRIVERINV 0x04U
#define VALUE_DRIVERSEL_LOW 0x00U
#define VALUE_DRIVERSEL_TXENV 0x01U
#define VALUE_DRIVERSEL_SIGIN 0x02U
/*@}*/
/** \name Tx-/Rx-CRC Control Register Contents (0x2C/0x2D)
*/
/*@{*/
#define BIT_RXFORCECRCWRITE 0x80U
#define BIT_CRCINVERT 0x02U
#define BIT_CRCEN 0x01U
#define MASK_CRCPRESETVAL 0x70U
#define MASK_CRCTYPE 0x0CU
#define MASK_CRCTYPE5 0x00U
#define MASK_CRCTYPE16 0x08U
/*@}*/
/** \name Tx-DataNum Register Contents (0x2E)
*/
/*@{*/
#define BIT_KEEPBITGRID 0x10U
#define BIT_DATAEN 0x08U
#define MASK_TXLASTBITS 0x07U
#define MASK_SYMBOL_SEND 0x08U
/*@}*/
/** \name Tx-Wait Control Register Contents (0x31)
*/
/*@{*/
#define BIT_TXWAIT_START_RX 0x80U
#define BIT_TXWAIT_DBFREQ 0x40U
#define MASK_TXWAITHI 0x38U
#define MASK_TXSTOPBITLEN 0x07U
/*@}*/
/** \name Frame Control Register Contents (0x33)
*/
/*@{*/
#define BIT_TXPARITYEN 0x80U
#define BIT_RXPARITYEN 0x40U
#define VALUE_STOP_SYM3 0x0CU
#define VALUE_STOP_SYM2 0x08U
#define VALUE_STOP_SYM1 0x04U
#define VALUE_START_SYM3 0x03U
#define VALUE_START_SYM2 0x02U
#define VALUE_START_SYM1 0x01U
#define MASK_STARTSYM 0x03U
#define MASK_STOPSYM 0x0CU
/*@}*/
/** \name Rx Control Register Contents (0x35)
*/
/*@{*/
#define BIT_RXALLOWBITS 0x80U
#define BIT_RXMULTIPLE 0x40U
#define BIT_RXEOFTYPE 0x20U
#define BIT_EGT_CHECK 0x10U
#define BIT_EMD_SUPPRESSION 0x08U
#define MASK_RXBAUDRATE 0x07U
/*@}*/
/** \name Rx-Wait Register Contents (0x36)
*/
/*@{*/
#define BIT_RXWAITDBFREQ 0x80U
#define MASK_RXWAIT 0x7FU
/*@}*/
/** \name Rx-Threshold Register Contents (0x37)
*/
/*@{*/
#define MASK_MINLEVEL 0xF0U
#define MASK_MINLEVELP 0x0FU
/*@}*/
/** \name Rx-Receiver Register Contents (0x38)
*/
/*@{*/
#define BIT_RX_SINGLE 0x80U
#define BIT_RX_SHORT_MIX2ADC 0x40U
#define BIT_USE_SMALL_EVAL 0x04U
#define MASK_RX_SIGPRO_IN_SEL 0x30U
#define MASK_COLLLEVEL 0x03U
/*@}*/
/** \name Rx-Analog Register Contents (0x39)
*/
/*@{*/
#define BIT_RX_OC_ENABLE 0x20U
#define BIT_RX_HP_LOWF 0x10U
#define MASK_VMID_R_SEL 0xC0U
#define MASK_RCV_HPCF 0x0CU
#define MASK_RCV_GAIN 0x03U
/*@}*/
/** \name Serial-Speed Register Contents (0x3B)
*/
/*@{*/
#define MASK_BR_T0 0xE0U
#define MASK_BR_T1 0x1FU
/*@}*/
/** \name LPCD Result(Q) Register Contents (0x43)
*/
/*@{*/
#define BIT_LPCDIRQ_CLR 0x40U
/*@}*/
/** \name Tx-BitMod Register Contents (0x48)
*/
/*@{*/
#define BIT_TXMSBFIRST 0x80U
#define BIT_TXPARITYTYPE 0x20U
#define BIT_TXSTOPBITTYPE 0x08U
#define BIT_TXSTARTBITTYPE 0x02U
#define BIT_TXSTARTBITEN 0x01U
/*@}*/
/** \name Rx-BitMod Register Contents (0x58)
*/
/*@{*/
#define BIT_RXSTOPONINVPAR 0x20U
#define BIT_RXSTOPONLEN 0x10U
#define BIT_RXMSBFIRST 0x08U
#define BIT_RXSTOPBITEN 0x04U
#define BIT_RXPARITYTYPE 0x02U
/*@}*/
/** \name Rx-Mod Register Contents (0x5D)
*/
/*@{*/
#define BIT_PREFILTER 0x20U
#define BIT_RECTFILTER 0x10U
#define BIT_SYNCHIGH 0x08U
#define BIT_CORRINV 0x04U
#define BIT_FSK 0x02U
#define BIT_BPSK 0x01U
/*@}*/
/** \name RxSupCfg Register Contents (0x6E)
*/
/*@{*/
#define BIT_RXNOERR 0x80U
/*@}*/
/** \name RxTxConReg Register Contents (0x77)
*/
/*@{*/
#define BIT_SHMODE 0x08U //<2F>Ϻ<EFBFBD><CFBA>
/*@}*/
/** \name ErrorExtReg Register Contents (0x7E)
*/
/*@{*/
#define PARITY_ERROR 0x08U
#define CRC_ERROR 0x04U
/*@{*/
#define LPCD_OPTION2 0x1DF
//---------------------------------------------------------------
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Э<EFBFBD><D0AD><EFBFBD><EFBFBD>
#define RX_TYPEA_106 0
#define RX_TYPEA_212 1
#define RX_TYPEA_424 2
#define RX_TYPEA_848 3
#define RX_TYPEB_106 4
#define RX_TYPEB_212 5
#define RX_TYPEB_424 6
#define RX_TYPEB_848 7
#define RX_TYPEV_26 10
#define RX_TYPEV_53 11
#define RX_FELICA_212 19
#define RX_FELICA_424 20
//<2F><><EFBFBD><EFBFBD><E5B7A2>Э<EFBFBD><D0AD><EFBFBD><EFBFBD>
#define TX_TYPEA_106 0
#define TX_TYPEA_212 1
#define TX_TYPEA_424 2
#define TX_TYPEA_848 3
#define TX_TYPEB_106 4
#define TX_TYPEB_212 5
#define TX_TYPEB_424 6
#define TX_TYPEB_848 7
#define TX_TYPEV_26 10
#define TX_TYPEV_53 11
#define TX_FELICA_212 19
#define TX_FELICA_424 20
#endif

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/********************************************************************************************************
* @file rfid_main.h
* @brief RFID 读卡器应用层主头文件
* @details
* 本文件定义了RFID应用层所需的数据结构、枚举类型和全局函数。
*
* @author Kilo Code
* @date 2025-11-24
* @version 1.0
********************************************************************************************************/
#ifndef _RFID_MAIN_H
#define _RFID_MAIN_H
// 包含项目的基础类型定义,如果您的项目中没有 "system/includes.h"
// 请替换为包含 stdint.h 或类似的头文件以获取 u8, u16, u32 等类型定义。
#include "system/includes.h"
/**
* @brief 操作状态枚举
*/
typedef enum {
FAIL = 0U,
SUCCESS = !FAIL
} ErrorStatus;
/**
* @brief 功能使能状态枚举
*/
typedef enum {
DISABLE = 0U,
ENABLE = !DISABLE
} FunState;
/**
* @brief 标志位状态枚举
*/
typedef enum {
RESET = 0U,
SET = !RESET
} FlagStatus, ITStatus;
/**
* @brief 通用位宏定义
*/
#define BIT0 (1 << 0)
#define BIT1 (1 << 1)
#define BIT2 (1 << 2)
#define BIT3 (1 << 3)
#define BIT4 (1 << 4)
#define BIT5 (1 << 5)
#define BIT6 (1 << 6)
#define BIT7 (1 << 7)
/**
* @brief 数据传输结构体
* @details 用于在不同函数间传递发送和接收数据缓冲区及其长度信息。
*/
typedef struct
{
unsigned char SendLength; /**< 要发送的数据长度 */
unsigned char *pSendBuffer; /**< 指向发送数据缓冲区的指针 */
unsigned char ReceiveLength; /**< 接收到的数据长度 */
unsigned char *pReceiveBuffer; /**< 指向接收数据缓冲区的指针 */
unsigned int Timeout; /**< 操作超时时间(单位:毫秒) */
} transmission_struct;
/********************************************************************************************************
* 全局函数声明
********************************************************************************************************/
/**
* @brief RFID模块的主任务函数。
* @details
* 这是一个示例性的任务函数展示了如何初始化RFID芯片并进入一个无限循环来轮询不同类型的卡片。
* 您可以将此函数作为一个独立的任务运行,或者将其中的逻辑集成到您现有的任务调度中。
*/
void rfid_task(void);
#endif // _RFID_MAIN_H