fastbee/firmware/stm32/smart_dormitory/User/RC522/rc522.c

#include "rc522.h"
#include "spi.h"

/**
  * 函数功能: 从串行Flash读取一个字节数据
  * 输入参数: 无
  * 返 回 值: uint8_t：读取到的数据
  * 说    明：This function must be used only if the Start_Read_Sequence
  *           function has been previously called.
  */
uint8_t SPI_FLASH_ReadByte(void)
{
  uint8_t d_read,d_send=Dummy_Byte;
  if(HAL_SPI_TransmitReceive(&hspi2,&d_send,&d_read,1,0xFFFFFF)!=HAL_OK)
    d_read=Dummy_Byte;
  
  return d_read;    
}

/**
  * 函数功能: 往串行Flash读取写入一个字节数据并接收一个字节数据
  * 输入参数: byte：待发送数据
  * 返 回 值: uint8_t：接收到的数据
  * 说    明：无
  */
uint8_t SPI_FLASH_SendByte(uint8_t byte)
{
  uint8_t d_read,d_send=byte;
  if(HAL_SPI_TransmitReceive(&hspi2,&d_send,&d_read,1,0xFFFFFF)!=HAL_OK)
    d_read=Dummy_Byte;
  
  return d_read; 
}

/*
 * 函数名：ReadRawRC
 * 描述  ：读RC522寄存器
 * 输入  ：ucAddress，寄存器地址
 * 返回  : 寄存器的当前值
 * 调用  ：内部调用
 */
uint8_t ReadRawRC ( uint8_t ucAddress )
{
	uint8_t ucAddr, ucReturn;
	
	ucAddr = ( ( ucAddress << 1 ) & 0x7E ) | 0x80;
	
	macRC522_CS_Enable() ;
	
	SPI_FLASH_SendByte ( ucAddr );
	
	ucReturn = SPI_FLASH_ReadByte ();
	
	macRC522_CS_Disable();
	
	return ucReturn;
}

/*
 * 函数名：WriteRawRC
 * 描述  ：写RC522寄存器
 * 输入  ：ucAddress，寄存器地址
 *         ucValue，写入寄存器的值
 * 返回  : 无
 * 调用  ：内部调用
 */
void WriteRawRC ( uint8_t ucAddress, uint8_t ucValue )
{  
	uint8_t ucAddr;
	
	ucAddr = ( ucAddress << 1 ) & 0x7E;
	
	macRC522_CS_Enable() ;
	SPI_FLASH_SendByte ( ucAddr );
	SPI_FLASH_SendByte ( ucValue );
	
	macRC522_CS_Disable();	
}

/*
 * 函数名：SetBitMask
 * 描述  ：对RC522寄存器置位
 * 输入  ：ucReg，寄存器地址
 *         ucMask，置位值
 * 返回  : 无
 * 调用  ：内部调用
 */
void SetBitMask ( uint8_t ucReg, uint8_t ucMask )  
{
    uint8_t ucTemp;
	
    ucTemp = ReadRawRC ( ucReg );
    WriteRawRC ( ucReg, ucTemp | ucMask );         // set bit mask
}

/*
 * 函数名：ClearBitMask
 * 描述  ：对RC522寄存器清位
 * 输入  ：ucReg，寄存器地址
 *         ucMask，清位值
 * 返回  : 无
 * 调用  ：内部调用
 */
void ClearBitMask ( uint8_t ucReg, uint8_t ucMask )  
{
    uint8_t ucTemp;
	
    ucTemp = ReadRawRC ( ucReg );
	
    WriteRawRC ( ucReg, ucTemp & ( ~ ucMask) );  // clear bit mask
}

/*
 * 函数名：PcdAntennaOn
 * 描述  ：开启天线 
 * 输入  ：无
 * 返回  : 无
 * 调用  ：内部调用
 */
void PcdAntennaOn ( void )
{
    uint8_t uc;
	
    uc = ReadRawRC ( TxControlReg );
	
    if ( ! ( uc & 0x03 ) )
		SetBitMask(TxControlReg, 0x03);
}


/*
 * 函数名：PcdAntennaOff
 * 描述  ：开启天线 
 * 输入  ：无
 * 返回  : 无
 * 调用  ：内部调用
 */
void PcdAntennaOff ( void )
{
  ClearBitMask ( TxControlReg, 0x03 );
}

/*
 * 函数名：PcdRese
 * 描述  ：复位RC522 
 * 输入  ：无
 * 返回  : 无
 * 调用  ：外部调用
 */
void PcdReset ( void )
{
	macRC522_Reset_Disable();
	
	HAL_Delay ( 1 );
	
	macRC522_Reset_Enable();
	
	HAL_Delay ( 1 );
	
	macRC522_Reset_Disable();
	
	HAL_Delay ( 1 );
	
	WriteRawRC ( CommandReg, 0x0f );
	
	while ( ReadRawRC ( CommandReg ) & 0x10 );
	
	HAL_Delay ( 1 );
	
	WriteRawRC ( ModeReg, 0x3D );            //定义发送和接收常用模式 和Mifare卡通讯，CRC初始值0x6363

	WriteRawRC ( TReloadRegL, 30 );          //16位定时器低位    
	WriteRawRC ( TReloadRegH, 0 );			     //16位定时器高位

	WriteRawRC ( TModeReg, 0x8D );				   //定义内部定时器的设置

	WriteRawRC ( TPrescalerReg, 0x3E );			 //设置定时器分频系数

	WriteRawRC ( TxAutoReg, 0x40 );				   //调制发送信号为100%ASK	
}

/*
 * 函数名：M500PcdConfigISOType
 * 描述  ：设置RC522的工作方式
 * 输入  ：ucType，工作方式
 * 返回  : 无
 * 调用  ：外部调用
 */
void M500PcdConfigISOType ( uint8_t ucType )
{
	if ( ucType == 'A')                     //ISO14443_A
	{
		ClearBitMask ( Status2Reg, 0x08 );

		WriteRawRC ( ModeReg, 0x3D );//3F

		WriteRawRC ( RxSelReg, 0x86 );//84

		WriteRawRC( RFCfgReg, 0x7F );   //4F

		WriteRawRC( TReloadRegL, 30 );//tmoLength);// TReloadVal = 'h6a =tmoLength(dec) 

		WriteRawRC ( TReloadRegH, 0 );

		WriteRawRC ( TModeReg, 0x8D );

		WriteRawRC ( TPrescalerReg, 0x3E );

		HAL_Delay ( 2 );

		PcdAntennaOn ();//开天线
	}
}

/*
 * 函数名：PcdComMF522
 * 描述  ：通过RC522和ISO14443卡通讯
 * 输入  ：ucCommand，RC522命令字
 *         pInData，通过RC522发送到卡片的数据
 *         ucInLenByte，发送数据的字节长度
 *         pOutData，接收到的卡片返回数据
 *         pOutLenBit，返回数据的位长度
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：内部调用
 */
char PcdComMF522 ( uint8_t ucCommand, uint8_t * pInData, uint8_t ucInLenByte, uint8_t * pOutData, uint32_t * pOutLenBit )		
{
    char cStatus = MI_ERR;
    uint8_t ucIrqEn   = 0x00;
    uint8_t ucWaitFor = 0x00;
    uint8_t ucLastBits;
    uint8_t ucN;
    uint32_t ul;

    switch ( ucCommand )
    {
       case PCD_AUTHENT:		//Mifare认证
          ucIrqEn   = 0x12;		//允许错误中断请求ErrIEn  允许空闲中断IdleIEn
          ucWaitFor = 0x10;		//认证寻卡等待时候 查询空闲中断标志位
          break;
			 
       case PCD_TRANSCEIVE:		//接收发送 发送接收
          ucIrqEn   = 0x77;		//允许TxIEn RxIEn IdleIEn LoAlertIEn ErrIEn TimerIEn
          ucWaitFor = 0x30;		//寻卡等待时候 查询接收中断标志位与 空闲中断标志位
          break;
			 
       default:
         break;	 
    }
   
    WriteRawRC ( ComIEnReg, ucIrqEn | 0x80 );		//IRqInv置位管脚IRQ与Status1Reg的IRq位的值相反 
    ClearBitMask ( ComIrqReg, 0x80 );			//Set1该位清零时，CommIRqReg的屏蔽位清零
    WriteRawRC ( CommandReg, PCD_IDLE );		//写空闲命令
    SetBitMask ( FIFOLevelReg, 0x80 );			//置位FlushBuffer清除内部FIFO的读和写指针以及ErrReg的BufferOvfl标志位被清除
    
    for ( ul = 0; ul < ucInLenByte; ul ++ )
		  WriteRawRC ( FIFODataReg, pInData [ ul ] );    		//写数据进FIFOdata
			
    WriteRawRC ( CommandReg, ucCommand );					//写命令
   
    if ( ucCommand == PCD_TRANSCEIVE )
			SetBitMask(BitFramingReg,0x80);  				//StartSend置位启动数据发送 该位与收发命令使用时才有效
    
    ul = 1000;//根据时钟频率调整，操作M1卡最大等待时间25ms
    do 														//认证 与寻卡等待时间	
    {
         ucN = ReadRawRC ( ComIrqReg );							//查询事件中断
         ul --;
    } while ( ( ul != 0 ) && ( ! ( ucN & 0x01 ) ) && ( ! ( ucN & ucWaitFor ) ) );		//退出条件i=0,定时器中断，与写空闲命令
		
    ClearBitMask ( BitFramingReg, 0x80 );					//清理允许StartSend位
    if ( ul != 0 )
    {
		if ( ! ( ReadRawRC ( ErrorReg ) & 0x1B ) )			//读错误标志寄存器BufferOfI CollErr ParityErr ProtocolErr
		{
			cStatus = MI_OK;
			if ( ucN & ucIrqEn & 0x01 )					//是否发生定时器中断
			  cStatus = MI_NOTAGERR;   
				
			if ( ucCommand == PCD_TRANSCEIVE )
			{
				ucN = ReadRawRC ( FIFOLevelReg );			//读FIFO中保存的字节数
				
				ucLastBits = ReadRawRC ( ControlReg ) & 0x07;	//最后接收到得字节的有效位数
				
				if ( ucLastBits )
					* pOutLenBit = ( ucN - 1 ) * 8 + ucLastBits;   	//N个字节数减去1（最后一个字节）+最后一位的位数 读取到的数据总位数
				else
					* pOutLenBit = ucN * 8;   					//最后接收到的字节整个字节有效
				
				if ( ucN == 0 )		
					ucN = 1;    
				
				if ( ucN > MAXRLEN )
					ucN = MAXRLEN;   
				
				for ( ul = 0; ul < ucN; ul ++ )
				  pOutData [ ul ] = ReadRawRC ( FIFODataReg );   
			}
		}else
		{
			cStatus = MI_ERR;
		}	
    }
   
   SetBitMask ( ControlReg, 0x80 );           // stop timer now
   WriteRawRC ( CommandReg, PCD_IDLE ); 
		 
   return cStatus;		
}

/*
 * 函数名：PcdRequest
 * 描述  ：寻卡
 * 输入  ：ucReq_code，寻卡方式
 *                     = 0x52，寻感应区内所有符合14443A标准的卡
 *                     = 0x26，寻未进入休眠状态的卡
 *         pTagType，卡片类型代码
 *                   = 0x4400，Mifare_UltraLight
 *                   = 0x0400，Mifare_One(S50)
 *                   = 0x0200，Mifare_One(S70)
 *                   = 0x0800，Mifare_Pro(X))
 *                   = 0x4403，Mifare_DESFire
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdRequest ( uint8_t ucReq_code, uint8_t * pTagType )
{
	char cStatus;  
	uint8_t ucComMF522Buf [ MAXRLEN ]; 
	uint32_t ulLen;


	ClearBitMask ( Status2Reg, 0x08 );	//清理指示MIFARECyptol单元接通以及所有卡的数据通信被加密的情况
	WriteRawRC ( BitFramingReg, 0x07 );	//	发送的最后一个字节的 七位
	SetBitMask ( TxControlReg, 0x03 );	//TX1,TX2管脚的输出信号传递经发送调制的13.56的能量载波信号

	ucComMF522Buf [ 0 ] = ucReq_code;		//存入 卡片命令字

	cStatus = PcdComMF522 ( PCD_TRANSCEIVE,	ucComMF522Buf, 1, ucComMF522Buf, & ulLen );	//寻卡  

	if ( ( cStatus == MI_OK ) && ( ulLen == 0x10 ) )	//寻卡成功返回卡类型 
	{    
	   * pTagType = ucComMF522Buf [ 0 ];
	   * ( pTagType + 1 ) = ucComMF522Buf [ 1 ];
	}
	 
	else
	 cStatus = MI_ERR;

	return cStatus;
}

/*
 * 函数名：PcdAnticoll
 * 描述  ：防冲撞
 * 输入  ：pSnr，卡片序列号，4字节
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdAnticoll ( uint8_t * pSnr )
{
	char cStatus;
	uint8_t uc, ucSnr_check = 0;
	uint8_t ucComMF522Buf [ MAXRLEN ]; 
	uint32_t ulLen;

	ClearBitMask ( Status2Reg, 0x08 );		//清MFCryptol On位 只有成功执行MFAuthent命令后，该位才能置位
	WriteRawRC ( BitFramingReg, 0x00);		//清理寄存器 停止收发
	ClearBitMask ( CollReg, 0x80 );			//清ValuesAfterColl所有接收的位在冲突后被清除

	ucComMF522Buf [ 0 ] = 0x93;	//卡片防冲突命令
	ucComMF522Buf [ 1 ] = 0x20;

	cStatus = PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 2, ucComMF522Buf, & ulLen);//与卡片通信

	if ( cStatus == MI_OK)		//通信成功
	{
		for ( uc = 0; uc < 4; uc ++ )
		{
			* ( pSnr + uc )  = ucComMF522Buf [ uc ];			//读出UID
			ucSnr_check ^= ucComMF522Buf [ uc ];
		}
		
		if ( ucSnr_check != ucComMF522Buf [ uc ] )
		{
			cStatus = MI_ERR;  
		}	 
	}

	SetBitMask ( CollReg, 0x80 );

	return cStatus;
}

/*
 * 函数名：CalulateCRC
 * 描述  ：用RC522计算CRC16
 * 输入  ：pIndata，计算CRC16的数组
 *         ucLen，计算CRC16的数组字节长度
 *         pOutData，存放计算结果存放的首地址
 * 返回  : 无
 * 调用  ：内部调用
 */
void CalulateCRC ( uint8_t * pIndata, uint8_t ucLen, uint8_t * pOutData )
{
    uint8_t uc, ucN;
	
    ClearBitMask(DivIrqReg,0x04);
    WriteRawRC(CommandReg,PCD_IDLE);
    SetBitMask(FIFOLevelReg,0x80);
	
    for ( uc = 0; uc < ucLen; uc ++)
	    WriteRawRC ( FIFODataReg, * ( pIndata + uc ) );   

    WriteRawRC ( CommandReg, PCD_CALCCRC );
	
    uc = 0xFF;
    do 
    {
        ucN = ReadRawRC ( DivIrqReg );
        uc --;
    } while ( ( uc != 0 ) && ! ( ucN & 0x04 ) );
		
    pOutData [ 0 ] = ReadRawRC ( CRCResultRegL );
    pOutData [ 1 ] = ReadRawRC ( CRCResultRegM );
			
}

/*
 * 函数名：PcdSelect
 * 描述  ：选定卡片
 * 输入  ：pSnr，卡片序列号，4字节
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdSelect ( uint8_t * pSnr )
{
    char ucN;
    uint8_t uc;
	uint8_t ucComMF522Buf [ MAXRLEN ]; 
    uint32_t  ulLen;
    
    ucComMF522Buf [ 0 ] = PICC_ANTICOLL1;
    ucComMF522Buf [ 1 ] = 0x70;
    ucComMF522Buf [ 6 ] = 0;
	
    for ( uc = 0; uc < 4; uc ++ )
    {
    	ucComMF522Buf [ uc + 2 ] = * ( pSnr + uc );
    	ucComMF522Buf [ 6 ] ^= * ( pSnr + uc );
    }
		
    CalulateCRC ( ucComMF522Buf, 7, & ucComMF522Buf [ 7 ] );
    ClearBitMask ( Status2Reg, 0x08 );

    ucN = PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 9, ucComMF522Buf, & ulLen );
    
    if ( ( ucN == MI_OK ) && ( ulLen == 0x18 ) )
      ucN = MI_OK;  
    else
      ucN = MI_ERR;    

    return ucN;		
}

/*
 * 函数名：PcdAuthState
 * 描述  ：验证卡片密码
 * 输入  ：ucAuth_mode，密码验证模式
 *                     = 0x60，验证A密钥
 *                     = 0x61，验证B密钥
 *         uint8_t ucAddr，块地址
 *         pKey，密码
 *         pSnr，卡片序列号，4字节
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdAuthState ( uint8_t ucAuth_mode, uint8_t ucAddr, uint8_t * pKey, uint8_t * pSnr )
{
    char cStatus;
	uint8_t uc, ucComMF522Buf [ MAXRLEN ];
    uint32_t ulLen;

    ucComMF522Buf [ 0 ] = ucAuth_mode;
    ucComMF522Buf [ 1 ] = ucAddr;
	
    for ( uc = 0; uc < 6; uc ++ )
	    ucComMF522Buf [ uc + 2 ] = * ( pKey + uc );   
	
    for ( uc = 0; uc < 6; uc ++ )
	    ucComMF522Buf [ uc + 8 ] = * ( pSnr + uc );   

    cStatus = PcdComMF522 ( PCD_AUTHENT, ucComMF522Buf, 12, ucComMF522Buf, & ulLen );
	
    if ( ( cStatus != MI_OK ) || ( ! ( ReadRawRC ( Status2Reg ) & 0x08 ) ) )
      cStatus = MI_ERR;   
    		
    return cStatus;			
}

/*
 * 函数名：PcdWrite
 * 描述  ：写数据到M1卡一块
 * 输入  ：uint8_t ucAddr，块地址
 *         pData，写入的数据，16字节
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdWrite ( uint8_t ucAddr, uint8_t * pData )
{
    char cStatus;
	uint8_t uc, ucComMF522Buf [ MAXRLEN ];
    uint32_t ulLen;
    
    ucComMF522Buf [ 0 ] = PICC_WRITE;
    ucComMF522Buf [ 1 ] = ucAddr;
	
    CalulateCRC ( ucComMF522Buf, 2, & ucComMF522Buf [ 2 ] );
 
    cStatus = PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 4, ucComMF522Buf, & ulLen );

    if ( ( cStatus != MI_OK ) || ( ulLen != 4 ) || ( ( ucComMF522Buf [ 0 ] & 0x0F ) != 0x0A ) )
      cStatus = MI_ERR;   
        
    if ( cStatus == MI_OK )
    {
			//memcpy(ucComMF522Buf, pData, 16);
		for ( uc = 0; uc < 16; uc ++ )
			  ucComMF522Buf [ uc ] = * ( pData + uc );  
			
		CalulateCRC ( ucComMF522Buf, 16, & ucComMF522Buf [ 16 ] );

		cStatus = PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 18, ucComMF522Buf, & ulLen );
			
		if ( ( cStatus != MI_OK ) || ( ulLen != 4 ) || ( ( ucComMF522Buf [ 0 ] & 0x0F ) != 0x0A ) )
			cStatus = MI_ERR;   
    } 	
    return cStatus;
}

/*
 * 函数名：PcdRead
 * 描述  ：读取M1卡一块数据
 * 输入  ：uint8_t ucAddr，块地址
 *         pData，读出的数据，16字节
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdRead ( uint8_t ucAddr, uint8_t * pData )
{
    char cStatus;
	uint8_t uc, ucComMF522Buf [ MAXRLEN ]; 
    uint32_t ulLen;
    
    ucComMF522Buf [ 0 ] = PICC_READ;
    ucComMF522Buf [ 1 ] = ucAddr;
	
    CalulateCRC ( ucComMF522Buf, 2, & ucComMF522Buf [ 2 ] );
    cStatus = PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 4, ucComMF522Buf, & ulLen );
	
    if ( ( cStatus == MI_OK ) && ( ulLen == 0x90 ) )
    {
	    for ( uc = 0; uc < 16; uc ++ )
            * ( pData + uc ) = ucComMF522Buf [ uc ];   
    }else
      cStatus = MI_ERR;   		
    return cStatus;
}

/*
 * 函数名：PcdHalt
 * 描述  ：命令卡片进入休眠状态
 * 输入  ：无
 * 返回  : 状态值
 *         = MI_OK，成功
 * 调用  ：外部调用
 */
char PcdHalt( void )
{
	uint8_t ucComMF522Buf [ MAXRLEN ]; 
	uint32_t  ulLen;

	ucComMF522Buf [ 0 ] = PICC_HALT;
	ucComMF522Buf [ 1 ] = 0;

	CalulateCRC ( ucComMF522Buf, 2, & ucComMF522Buf [ 2 ] );
	PcdComMF522 ( PCD_TRANSCEIVE, ucComMF522Buf, 4, ucComMF522Buf, & ulLen );

	return MI_OK;
}

void IC_CMT ( uint8_t * UID, uint8_t * KEY, uint8_t RW, uint8_t * Dat )
{
	uint8_t ucArray_ID [ 4 ] = { 0 };//先后存放IC卡的类型和UID(IC卡序列号)

	PcdRequest ( 0x52, ucArray_ID );//寻卡
	PcdAnticoll ( ucArray_ID );//防冲撞
	PcdSelect ( UID );//选定卡
	PcdAuthState ( 0x60, 0x10, KEY, UID );//校验

	if ( RW )//读写选择，1是读，0是写
		PcdRead ( 0x10, Dat );
	else 
		PcdWrite ( 0x10, Dat );

	PcdHalt (); 
}