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minimal2 2013-05-21 16:56:03 +02:00
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/*
* RFID.cpp - Library to use ARDUINO RFID MODULE KIT 13.56 MHZ WITH TAGS SPI W AND R BY COOQROBOT.
* Based on code Dr.Leong ( WWW.B2CQSHOP.COM )
* Created by Miguel Balboa, Jan, 2012.
* Released into the public domain.
*/
/******************************************************************************
* Includes
******************************************************************************/
#include <Arduino.h>
#include <RFID.h>
/******************************************************************************
* User API
******************************************************************************/
/**
* Construct RFID
* int chipSelectPin RFID /ENABLE pin
*/
RFID::RFID(int chipSelectPin, int NRSTPD)
{
_chipSelectPin = chipSelectPin;
pinMode(_chipSelectPin,OUTPUT); // Set digital as OUTPUT to connect it to the RFID /ENABLE pin
digitalWrite(_chipSelectPin, LOW);
pinMode(NRSTPD,OUTPUT); // Set digital pin, Not Reset and Power-down
digitalWrite(NRSTPD, HIGH);
_NRSTPD = NRSTPD;
}
/******************************************************************************
* User API
******************************************************************************/
bool RFID::isCard()
{
unsigned char status;
unsigned char str[MAX_LEN];
status = MFRC522Request(PICC_REQIDL, str);
if (status == MI_OK) {
return true;
} else {
return false;
}
}
bool RFID::readCardSerial(){
unsigned char status;
unsigned char str[MAX_LEN];
// Anti-colisión, devuelva el número de serie de tarjeta de 4 bytes
status = anticoll(str);
memcpy(serNum, str, 5);
if (status == MI_OK) {
return true;
} else {
return false;
}
}
/******************************************************************************
* Dr.Leong ( WWW.B2CQSHOP.COM )
******************************************************************************/
void RFID::init()
{
digitalWrite(_NRSTPD,HIGH);
reset();
//Timer: TPrescaler*TreloadVal/6.78MHz = 24ms
writeMFRC522(TModeReg, 0x8D); //Tauto=1; f(Timer) = 6.78MHz/TPreScaler
writeMFRC522(TPrescalerReg, 0x3E); //TModeReg[3..0] + TPrescalerReg
writeMFRC522(TReloadRegL, 30);
writeMFRC522(TReloadRegH, 0);
writeMFRC522(TxAutoReg, 0x40); //100%ASK
writeMFRC522(ModeReg, 0x3D); // CRC valor inicial de 0x6363
//ClearBitMask(Status2Reg, 0x08); //MFCrypto1On=0
//writeMFRC522(RxSelReg, 0x86); //RxWait = RxSelReg[5..0]
//writeMFRC522(RFCfgReg, 0x7F); //RxGain = 48dB
antennaOn(); //Abre la antena
}
void RFID::reset()
{
writeMFRC522(CommandReg, PCD_RESETPHASE);
}
void RFID::writeMFRC522(unsigned char addr, unsigned char val)
{
digitalWrite(_chipSelectPin, LOW);
//0XXXXXX0 formato de dirección
SPI.transfer((addr<<1)&0x7E);
SPI.transfer(val);
digitalWrite(_chipSelectPin, HIGH);
}
void RFID::antennaOn(void)
{
unsigned char temp;
temp = readMFRC522(TxControlReg);
if (!(temp & 0x03))
{
setBitMask(TxControlReg, 0x03);
}
}
/*
* Read_MFRC522 Nombre de la función: Read_MFRC522
* Descripción: Desde el MFRC522 leer un byte de un registro de datos
* Los parámetros de entrada: addr - la dirección de registro
* Valor de retorno: Devuelve un byte de datos de lectura
*/
unsigned char RFID::readMFRC522(unsigned char addr)
{
unsigned char val;
digitalWrite(_chipSelectPin, LOW);
SPI.transfer(((addr<<1)&0x7E) | 0x80);
val =SPI.transfer(0x00);
digitalWrite(_chipSelectPin, HIGH);
return val;
}
void RFID::setBitMask(unsigned char reg, unsigned char mask)
{
unsigned char tmp;
tmp = readMFRC522(reg);
writeMFRC522(reg, tmp | mask); // set bit mask
}
void RFID::clearBitMask(unsigned char reg, unsigned char mask)
{
unsigned char tmp;
tmp = readMFRC522(reg);
writeMFRC522(reg, tmp & (~mask)); // clear bit mask
}
void RFID::calculateCRC(unsigned char *pIndata, unsigned char len, unsigned char *pOutData)
{
unsigned char i, n;
clearBitMask(DivIrqReg, 0x04); //CRCIrq = 0
setBitMask(FIFOLevelReg, 0x80); //Claro puntero FIFO
//Write_MFRC522(CommandReg, PCD_IDLE);
//Escribir datos en el FIFO
for (i=0; i<len; i++)
{
writeMFRC522(FIFODataReg, *(pIndata+i));
}
writeMFRC522(CommandReg, PCD_CALCCRC);
// Esperar a la finalización de cálculo del CRC
i = 0xFF;
do
{
n = readMFRC522(DivIrqReg);
i--;
}
while ((i!=0) && !(n&0x04)); //CRCIrq = 1
//Lea el cálculo de CRC
pOutData[0] = readMFRC522(CRCResultRegL);
pOutData[1] = readMFRC522(CRCResultRegM);
}
unsigned char RFID::MFRC522ToCard(unsigned char command, unsigned char *sendData, unsigned char sendLen, unsigned char *backData, unsigned int *backLen)
{
unsigned char status = MI_ERR;
unsigned char irqEn = 0x00;
unsigned char waitIRq = 0x00;
unsigned char lastBits;
unsigned char n;
unsigned int i;
switch (command)
{
case PCD_AUTHENT: // Tarjetas de certificación cerca
{
irqEn = 0x12;
waitIRq = 0x10;
break;
}
case PCD_TRANSCEIVE: //La transmisión de datos FIFO
{
irqEn = 0x77;
waitIRq = 0x30;
break;
}
default:
break;
}
writeMFRC522(CommIEnReg, irqEn|0x80); //De solicitud de interrupción
clearBitMask(CommIrqReg, 0x80); // Borrar todos los bits de petición de interrupción
setBitMask(FIFOLevelReg, 0x80); //FlushBuffer=1, FIFO de inicialización
writeMFRC522(CommandReg, PCD_IDLE); //NO action;Y cancelar el comando
//Escribir datos en el FIFO
for (i=0; i<sendLen; i++)
{
writeMFRC522(FIFODataReg, sendData[i]);
}
//???? ejecutar el comando
writeMFRC522(CommandReg, command);
if (command == PCD_TRANSCEIVE)
{
setBitMask(BitFramingReg, 0x80); //StartSend=1,transmission of data starts
}
// A la espera de recibir datos para completar
i = 2000; //i????????,??M1???????25ms ??? i De acuerdo con el ajuste de frecuencia de reloj, el tiempo máximo de espera operación M1 25ms tarjeta??
do
{
//CommIrqReg[7..0]
//Set1 TxIRq RxIRq IdleIRq HiAlerIRq LoAlertIRq ErrIRq TimerIRq
n = readMFRC522(CommIrqReg);
i--;
}
while ((i!=0) && !(n&0x01) && !(n&waitIRq));
clearBitMask(BitFramingReg, 0x80); //StartSend=0
if (i != 0)
{
if(!(readMFRC522(ErrorReg) & 0x1B)) //BufferOvfl Collerr CRCErr ProtecolErr
{
status = MI_OK;
if (n & irqEn & 0x01)
{
status = MI_NOTAGERR; //??
}
if (command == PCD_TRANSCEIVE)
{
n = readMFRC522(FIFOLevelReg);
lastBits = readMFRC522(ControlReg) & 0x07;
if (lastBits)
{
*backLen = (n-1)*8 + lastBits;
}
else
{
*backLen = n*8;
}
if (n == 0)
{
n = 1;
}
if (n > MAX_LEN)
{
n = MAX_LEN;
}
//??FIFO??????? Lea los datos recibidos en el FIFO
for (i=0; i<n; i++)
{
backData[i] = readMFRC522(FIFODataReg);
}
}
}
else
{
status = MI_ERR;
}
}
//SetBitMask(ControlReg,0x80); //timer stops
//Write_MFRC522(CommandReg, PCD_IDLE);
return status;
}
/*
* Nombre de la función: MFRC522_Request
* Descripción: Buscar las cartas, leer el número de tipo de tarjeta
* Los parámetros de entrada: reqMode - encontrar el modo de tarjeta,
* Tagtype - Devuelve el tipo de tarjeta
* 0x4400 = Mifare_UltraLight
* 0x0400 = Mifare_One(S50)
* 0x0200 = Mifare_One(S70)
* 0x0800 = Mifare_Pro(X)
* 0x4403 = Mifare_DESFire
* Valor de retorno: el retorno exitoso MI_OK
*/
unsigned char RFID::MFRC522Request(unsigned char reqMode, unsigned char *TagType)
{
unsigned char status;
unsigned int backBits; // Recibió bits de datos
writeMFRC522(BitFramingReg, 0x07); //TxLastBists = BitFramingReg[2..0] ???
TagType[0] = reqMode;
status = MFRC522ToCard(PCD_TRANSCEIVE, TagType, 1, TagType, &backBits);
if ((status != MI_OK) || (backBits != 0x10))
{
status = MI_ERR;
}
return status;
}
/**
* MFRC522Anticoll -> anticoll
* Anti-detección de colisiones, la lectura del número de serie de la tarjeta de tarjeta
* @param serNum - devuelve el número de tarjeta 4 bytes de serie, los primeros 5 bytes de bytes de paridad
* @return retorno exitoso MI_OK
*/
unsigned char RFID::anticoll(unsigned char *serNum)
{
unsigned char status;
unsigned char i;
unsigned char serNumCheck=0;
unsigned int unLen;
//ClearBitMask(Status2Reg, 0x08); //TempSensclear
//ClearBitMask(CollReg,0x80); //ValuesAfterColl
writeMFRC522(BitFramingReg, 0x00); //TxLastBists = BitFramingReg[2..0]
serNum[0] = PICC_ANTICOLL;
serNum[1] = 0x20;
status = MFRC522ToCard(PCD_TRANSCEIVE, serNum, 2, serNum, &unLen);
if (status == MI_OK)
{
//?????? Compruebe el número de serie de la tarjeta
for (i=0; i<4; i++)
{
serNumCheck ^= serNum[i];
}
if (serNumCheck != serNum[i])
{
status = MI_ERR;
}
}
//SetBitMask(CollReg, 0x80); //ValuesAfterColl=1
return status;
}
/*
* MFRC522Auth -> auth
* Verificar la contraseña de la tarjeta
* Los parámetros de entrada: AuthMode - Modo de autenticación de contraseña
0x60 = A 0x60 = validación KeyA
0x61 = B 0x61 = validación KeyB
BlockAddr-- bloque de direcciones
Sectorkey-- sector contraseña
serNum--,4? Tarjeta de número de serie, 4 bytes
* MI_OK Valor de retorno: el retorno exitoso MI_OK
*/
unsigned char RFID::auth(unsigned char authMode, unsigned char BlockAddr, unsigned char *Sectorkey, unsigned char *serNum)
{
unsigned char status;
unsigned int recvBits;
unsigned char i;
unsigned char buff[12];
//????+???+????+???? Verifique la dirección de comandos de bloques del sector + + contraseña + número de la tarjeta de serie
buff[0] = authMode;
buff[1] = BlockAddr;
for (i=0; i<6; i++)
{
buff[i+2] = *(Sectorkey+i);
}
for (i=0; i<4; i++)
{
buff[i+8] = *(serNum+i);
}
status = MFRC522ToCard(PCD_AUTHENT, buff, 12, buff, &recvBits);
if ((status != MI_OK) || (!(readMFRC522(Status2Reg) & 0x08)))
{
status = MI_ERR;
}
return status;
}
/*
* MFRC522Read -> read
* Lectura de datos de bloque
* Los parámetros de entrada: blockAddr - dirección del bloque; recvData - leer un bloque de datos
* MI_OK Valor de retorno: el retorno exitoso MI_OK
*/
unsigned char RFID::read(unsigned char blockAddr, unsigned char *recvData)
{
unsigned char status;
unsigned int unLen;
recvData[0] = PICC_READ;
recvData[1] = blockAddr;
calculateCRC(recvData,2, &recvData[2]);
status = MFRC522ToCard(PCD_TRANSCEIVE, recvData, 4, recvData, &unLen);
if ((status != MI_OK) || (unLen != 0x90))
{
status = MI_ERR;
}
return status;
}
/*
* MFRC522Write -> write
* La escritura de datos de bloque
* blockAddr - dirección del bloque; WriteData - para escribir 16 bytes del bloque de datos
* Valor de retorno: el retorno exitoso MI_OK
*/
unsigned char RFID::write(unsigned char blockAddr, unsigned char *writeData)
{
unsigned char status;
unsigned int recvBits;
unsigned char i;
unsigned char buff[18];
buff[0] = PICC_WRITE;
buff[1] = blockAddr;
calculateCRC(buff, 2, &buff[2]);
status = MFRC522ToCard(PCD_TRANSCEIVE, buff, 4, buff, &recvBits);
if ((status != MI_OK) || (recvBits != 4) || ((buff[0] & 0x0F) != 0x0A))
{
status = MI_ERR;
}
if (status == MI_OK)
{
for (i=0; i<16; i++) //?FIFO?16Byte?? Datos a la FIFO 16Byte escribir
{
buff[i] = *(writeData+i);
}
calculateCRC(buff, 16, &buff[16]);
status = MFRC522ToCard(PCD_TRANSCEIVE, buff, 18, buff, &recvBits);
if ((status != MI_OK) || (recvBits != 4) || ((buff[0] & 0x0F) != 0x0A))
{
status = MI_ERR;
}
}
return status;
}
/*
* MFRC522Halt -> halt
* Cartas de Mando para dormir
* Los parámetros de entrada: Ninguno
* Valor devuelto: Ninguno
*/
void RFID::halt()
{
unsigned char status;
unsigned int unLen;
unsigned char buff[4];
buff[0] = PICC_HALT;
buff[1] = 0;
calculateCRC(buff, 2, &buff[2]);
status = MFRC522ToCard(PCD_TRANSCEIVE, buff, 4, buff,&unLen);
}

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/* RFID.h - Library to use ARDUINO RFID MODULE KIT 13.56 MHZ WITH TAGS SPI W AND R BY COOQROBOT.
* Based on code Dr.Leong ( WWW.B2CQSHOP.COM )
* Created by Miguel Balboa (circuitito.com), Jan, 2012.
*/
#ifndef RFID_h
#define RFID_h
#include <Arduino.h>
#include <SPI.h>
/******************************************************************************
* Definitions
******************************************************************************/
#define MAX_LEN 16 // Largo máximo de la matriz
//MF522 comando palabra
#define PCD_IDLE 0x00 // NO action; Y cancelar el comando
#define PCD_AUTHENT 0x0E // autenticación de clave
#define PCD_RECEIVE 0x08 // recepción de datos
#define PCD_TRANSMIT 0x04 // Enviar datos
#define PCD_TRANSCEIVE 0x0C // Enviar y recibir datos
#define PCD_RESETPHASE 0x0F // reajustar
#define PCD_CALCCRC 0x03 // CRC calcular
//Mifare_One Tarjeta Mifare_One comando palabra
#define PICC_REQIDL 0x26 // Área de la antena no está tratando de entrar en el estado de reposo
#define PICC_REQALL 0x52 // Todas las cartas para encontrar el área de la antena
#define PICC_ANTICOLL 0x93 // anti-colisión
#define PICC_SElECTTAG 0x93 // elección de tarjeta
#define PICC_AUTHENT1A 0x60 // verificación key A
#define PICC_AUTHENT1B 0x61 // verificación Key B
#define PICC_READ 0x30 // leer bloque
#define PICC_WRITE 0xA0 // Escribir en el bloque
#define PICC_DECREMENT 0xC0 // cargo
#define PICC_INCREMENT 0xC1 // recargar
#define PICC_RESTORE 0xC2 // Transferencia de datos de bloque de buffer
#define PICC_TRANSFER 0xB0 // Guardar los datos en el búfer
#define PICC_HALT 0x50 // inactividad
//MF522 Código de error de comunicación cuando regresó
#define MI_OK 0
#define MI_NOTAGERR 1
#define MI_ERR 2
//------------------ MFRC522 registro---------------
//Page 0:Command and Status
#define Reserved00 0x00
#define CommandReg 0x01
#define CommIEnReg 0x02
#define DivlEnReg 0x03
#define CommIrqReg 0x04
#define DivIrqReg 0x05
#define ErrorReg 0x06
#define Status1Reg 0x07
#define Status2Reg 0x08
#define FIFODataReg 0x09
#define FIFOLevelReg 0x0A
#define WaterLevelReg 0x0B
#define ControlReg 0x0C
#define BitFramingReg 0x0D
#define CollReg 0x0E
#define Reserved01 0x0F
//Page 1:Command
#define Reserved10 0x10
#define ModeReg 0x11
#define TxModeReg 0x12
#define RxModeReg 0x13
#define TxControlReg 0x14
#define TxAutoReg 0x15
#define TxSelReg 0x16
#define RxSelReg 0x17
#define RxThresholdReg 0x18
#define DemodReg 0x19
#define Reserved11 0x1A
#define Reserved12 0x1B
#define MifareReg 0x1C
#define Reserved13 0x1D
#define Reserved14 0x1E
#define SerialSpeedReg 0x1F
//Page 2:CFG
#define Reserved20 0x20
#define CRCResultRegM 0x21
#define CRCResultRegL 0x22
#define Reserved21 0x23
#define ModWidthReg 0x24
#define Reserved22 0x25
#define RFCfgReg 0x26
#define GsNReg 0x27
#define CWGsPReg 0x28
#define ModGsPReg 0x29
#define TModeReg 0x2A
#define TPrescalerReg 0x2B
#define TReloadRegH 0x2C
#define TReloadRegL 0x2D
#define TCounterValueRegH 0x2E
#define TCounterValueRegL 0x2F
//Page 3:TestRegister
#define Reserved30 0x30
#define TestSel1Reg 0x31
#define TestSel2Reg 0x32
#define TestPinEnReg 0x33
#define TestPinValueReg 0x34
#define TestBusReg 0x35
#define AutoTestReg 0x36
#define VersionReg 0x37
#define AnalogTestReg 0x38
#define TestDAC1Reg 0x39
#define TestDAC2Reg 0x3A
#define TestADCReg 0x3B
#define Reserved31 0x3C
#define Reserved32 0x3D
#define Reserved33 0x3E
#define Reserved34 0x3F
//-----------------------------------------------
class RFID
{
public:
RFID(int chipSelectPin, int NRSTPD);
bool isCard();
bool readCardSerial();
void init();
void reset();
void writeMFRC522(unsigned char addr, unsigned char val);
void antennaOn(void);
unsigned char readMFRC522(unsigned char addr);
void setBitMask(unsigned char reg, unsigned char mask);
void clearBitMask(unsigned char reg, unsigned char mask);
void calculateCRC(unsigned char *pIndata, unsigned char len, unsigned char *pOutData);
unsigned char MFRC522Request(unsigned char reqMode, unsigned char *TagType);
unsigned char MFRC522ToCard(unsigned char command, unsigned char *sendData, unsigned char sendLen, unsigned char *backData, unsigned int *backLen);
unsigned char anticoll(unsigned char *serNum);
unsigned char auth(unsigned char authMode, unsigned char BlockAddr, unsigned char *Sectorkey, unsigned char *serNum);
unsigned char read(unsigned char blockAddr, unsigned char *recvData);
unsigned char write(unsigned char blockAddr, unsigned char *writeData);
void halt();
unsigned char serNum[5]; // Constante para guardar el numero de serie leido.
unsigned char AserNum[5]; // Constante para guardar el numero d serie de la secion actual.
private:
int _chipSelectPin;
int _NRSTPD;
};
#endif