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////////////////////////////////////////////////////////////
//Test SL025x
//ARM C source code
//LM3S600(6MHz) + EWARM 5.30
////////////////////////////////////////////////////////////
#include "hw_types.h"
#include "hw_memmap.h"
#include "hw_uart.h"
#include "hw_ints.h"
#include "string.h"
#include "sysctl.h"
#include "gpio.h"
#include "systick.h"
#include "interrupt.h"
#include "uart.h"
//============================================
// Uart bound define
//============================================
#define BOUND4800 4800
#define BOUND9600 9600
#define BOUND14400 14400
#define BOUND19200 19200
#define BOUND28800 28800
#define BOUND38400 38400
#define BOUND57600 57600
#define BOUND115200 115200
//============================================
// Uart Status define
//============================================
#define UARTSTATUS_FREE 0
#define UARTSTATUS_TX 1
#define UARTSTATUS_TXSUCC 2
#define UARTSTATUS_RXSUCC 3
#define UARTSTATUS_RXERR 4
//============================================
// Command List, preamble + length + command
//============================================
const unsigned char __packed SelectCard[]= {0xBA,0x02,0x01 };
const unsigned char __packed LoginSector0[]= {0xBA,0x0A,0x02,0x00,0xAA,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF};
const unsigned char __packed LoginSector1[]= {0xBA,0x0A,0x02,0x01,0xAA,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF};
const unsigned char __packed ReadBlock1[]= {0xBA,0x03,0x03,0x01};
const unsigned char __packed WriteBlock1[]= {0xBA,0x13,0x04,0x01,0x00,0x11,0x22,0x33,0x44,0x55,0x66,0x77,0x88,0x99,0xAA,0xBB,0xCC,0xDD,0xEE,0xFF};
const unsigned char __packed ReadValue[]= {0xBA,0x03,0x05,0x05};
const unsigned char __packed InitializeValue[]= {0xBA,0x07,0x06,0x04,0x00,0x00,0x00,0x01};
const unsigned char __packed IncrementValue[]= {0xBA,0x07,0x08,0x04,0x00,0x00,0x00,0x20};
const unsigned char __packed DecrementValue[]= {0xBA,0x07,0x09,0x04,0x03,0x00,0x00,0x00};
const unsigned char __packed CopyValue[]= {0xBA,0x04,0x0A,0x04,0x05};
const unsigned char __packed ReadULPage5[]= {0xBA,0x03,0x10,0x05};
const unsigned char __packed WriteULPage5[]= {0xBA,0x07,0x11,0x05,0x11,0x22,0x33,0x44};
const unsigned char __packed TurnOnRedLed[]= {0xBA,0x03,0x40,0x01};
const unsigned char __packed TurnOffRedLed[]= {0xBA,0x03,0x40,0x00};
//============================================
// global variable define
//============================================
unsigned char g_cCardType;
unsigned long int g_iTimer;
unsigned char g_bOverTime;
unsigned char g_cUartTxCnt;
unsigned char g_cUartTxDataLen;
unsigned char *g_pUartTxDat;
unsigned char g_cUartTxCheckSum;
unsigned char g_cUartRxCnt;
unsigned char g_cUartRxBuf[60];
unsigned char g_cUartStatus;
//============================================
// i/o port define
//============================================
#define CARDIN_SL025 GPIO_PORTD_BASE,GPIO_PIN_2
//============================================
// procedure define
//============================================
void InitializeSystem();
void Start_Time(unsigned long int ms);
void Stop_Time();
void Test_SL025x();
void main()
{ InitializeSystem();
g_iTimer=0;
while(1) Test_SL025x();
}
//============================================
// system clock interrupt procedure
//============================================
void SysTickIntHandler(void)
{ if(g_iTimer!=0)
{ g_iTimer--;
if(g_iTimer==0) g_bOverTime=1;
}
}
//============================================
// initialize system hardware config
// system clock,uart0
//============================================
void InitializeSystem()
{
//init sysclock
//period=1ms
SysCtlClockSet(SYSCTL_SYSDIV_4|SYSCTL_USE_PLL|SYSCTL_OSC_MAIN|SYSCTL_XTAL_6MHZ);
SysTickPeriodSet(SysCtlClockGet()/1000);
SysTickEnable();
SysTickIntEnable();
SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOA);
SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOD);
//CARD_IN PD2
GPIODirModeSet(GPIO_PORTD_BASE,GPIO_PIN_2,GPIO_DIR_MODE_IN);
GPIOPadConfigSet(GPIO_PORTD_BASE,GPIO_PIN_2,GPIO_STRENGTH_2MA,GPIO_PIN_TYPE_STD_WPU);
//init Uart
//baud=115200
SysCtlPeripheralEnable(SYSCTL_PERIPH_UART0);
GPIOPinTypeUART(GPIO_PORTA_BASE,GPIO_PIN_0|GPIO_PIN_1);
UARTDisable(UART0_BASE);
UARTIntClear(UART0_BASE,UART_INT_OE|UART_INT_BE|UART_INT_PE|UART_INT_FE|UART_INT_RT|UART_INT_TX|UART_INT_RX);
UARTIntDisable(UART0_BASE,UART_INT_OE|UART_INT_BE|UART_INT_PE|UART_INT_FE|UART_INT_RT|UART_INT_TX|UART_INT_RX);
UARTConfigSetExpClk(UART0_BASE,SysCtlClockGet(),BOUND115200,(UART_CONFIG_WLEN_8|UART_CONFIG_STOP_ONE|UART_CONFIG_PAR_NONE));
UARTFIFOLevelSet(UART0_BASE,UART_FIFO_TX1_8,UART_FIFO_RX1_8);
HWREG(UART0_BASE+UART_O_LCRH) &= ~(UART_LCRH_FEN);
UARTIntEnable(UART0_BASE,UART_INT_RX|UART_INT_TX);
IntEnable(INT_UART0);
g_cUartStatus=UARTSTATUS_FREE;
g_cUartRxCnt=0;
//interrupt enable
IntMasterEnable();
}
//============================================
// start timer
//============================================
void Start_Time(unsigned long int ms)
{ g_iTimer=ms;
g_bOverTime=0;
}
//============================================
// stop timer
//============================================
void Stop_Time()
{ g_iTimer=0;
}
void UARTISR_TX025x()
{ unsigned char tmp;
if(g_cUartTxCnt==g_cUartTxDataLen)
{ if(g_cUartStatus==UARTSTATUS_TX)
{ g_cUartStatus=UARTSTATUS_TXSUCC;
g_cUartRxCnt=0;
UARTCharPutNonBlocking(UART0_BASE,g_cUartTxCheckSum);
}
}
else
{ tmp=g_pUartTxDat[g_cUartTxCnt];
g_cUartTxCheckSum=g_cUartTxCheckSum^tmp;
g_cUartTxCnt++;
UARTCharPutNonBlocking(UART0_BASE,tmp);
}
}
void UARTISR_RX025x(unsigned char dat)
{ unsigned char CheckSum;
unsigned char counter;
g_cUartRxBuf[g_cUartRxCnt]=dat;
g_cUartRxCnt++;
if(g_cUartRxCnt==g_cUartRxBuf[1]+2)
{ CheckSum=0;
for(counter=0;counter<g_cUartRxCnt;counter++) CheckSum=CheckSum^g_cUartRxBuf[counter];
if(CheckSum==0) g_cUartStatus=UARTSTATUS_RXSUCC;
else g_cUartStatus=UARTSTATUS_RXERR;
}
}
void UART0_ISR(void)
{ unsigned long flag_int;
unsigned char tmp;
flag_int=UARTIntStatus(UART0_BASE,true);
UARTIntClear(UART0_BASE,flag_int);
if((flag_int&UART_INT_TX)==UART_INT_TX) UARTISR_TX025x();
if((flag_int&UART_INT_RX)==UART_INT_RX)
{ tmp=UARTCharGetNonBlocking(UART0_BASE);
UARTISR_RX025x(tmp);
}
}
//============================================
// send buffer by uart0
//============================================
void SendBuf_UART(unsigned char *dat,unsigned char len)
{ g_cUartStatus=UARTSTATUS_TX;
g_pUartTxDat=dat;
g_cUartTxDataLen=len;
g_cUartTxCnt=0;
g_cUartTxCheckSum=0;
UARTISR_TX025x();
}
//============================================
// SL025x1 test procedure
//============================================
void Test_SL025x()
{
#define RCVCMD_SL025x g_cUartRxBuf[2]
#define RCVSTA_SL025x g_cUartRxBuf[3]
unsigned long int lPurseValue;
unsigned char g_cErr;
g_cCardType=0xff;
if((GPIOPinRead(CARDIN_SL025)&GPIO_PIN_2)==GPIO_PIN_2) return;
//Get the unique serial number of Mifare Card
SendBuf_UART((unsigned char *)(SelectCard),sizeof(SelectCard));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x01)||(RCVSTA_SL025x!=0)) return;
g_cCardType=g_cUartRxBuf[g_cUartRxBuf[1]];
switch(g_cCardType)
{
case 1: //Mifare 1k 4 BYTE UID
case 2: //Mifare 1k 7 BYTE UID
case 4: //Mifare 4k 4 BYTE UID
case 5: //Mifare 4k 7 BYTE UID
//Verify password of sector0
SendBuf_UART((unsigned char *)(LoginSector0),sizeof(LoginSector0));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x02)||(RCVSTA_SL025x!=0x02)) return;
//Write data to block1
SendBuf_UART((unsigned char *)(WriteBlock1),sizeof(WriteBlock1));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x04)||(RCVSTA_SL025x!=0)) return;
if(memcmp(&WriteBlock1[4],&g_cUartRxBuf[4],16)!=0) return;
//Read data from block1
SendBuf_UART((unsigned char *)(ReadBlock1),sizeof(ReadBlock1));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x03)||(RCVSTA_SL025x!=0)) return;
if(memcmp(&WriteBlock1[4],&g_cUartRxBuf[4],16)!=0) return;
//Verify password of sector1
SendBuf_UART((unsigned char *)(LoginSector1),sizeof(LoginSector1));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x02)||(RCVSTA_SL025x!=0x02)) return;
//Initialize block4 to one purse, and value = 0x01000000
SendBuf_UART((unsigned char *)(InitializeValue),sizeof(InitializeValue));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x06)||(RCVSTA_SL025x!=0)) return;
if(memcmp(&InitializeValue[4],&g_cUartRxBuf[4],4)!=0) return;
//Increment
SendBuf_UART((unsigned char *)(IncrementValue),sizeof(IncrementValue));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x08)||(RCVSTA_SL025x!=0)) return;
//Decrement
SendBuf_UART((unsigned char *)(DecrementValue),sizeof(DecrementValue));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x09)||(RCVSTA_SL025x!=0)) return;
//Backup purse to blcok5
SendBuf_UART((unsigned char *)(CopyValue),sizeof(CopyValue));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x0a)||(RCVSTA_SL025x!=0)) return;
//Read purse value from blcok5
SendBuf_UART((unsigned char *)(ReadValue),sizeof(ReadValue));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x05)||(RCVSTA_SL025x!=0)) return;
//Check value
lPurseValue=g_cUartRxBuf[7];
lPurseValue=(lPurseValue<<8)+g_cUartRxBuf[6];
lPurseValue=(lPurseValue<<8)+g_cUartRxBuf[5];
lPurseValue=(lPurseValue<<8)+g_cUartRxBuf[4];
if(lPurseValue!=0x01000000+0x20000000-0x00000003) return;
g_cErr=0;
break;
case 3: //Mifare_UltraLight
SendBuf_UART((unsigned char *)(WriteULPage5),sizeof(WriteULPage5));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x11)||(RCVSTA_SL025x!=0)) return;
SendBuf_UART((unsigned char *)(ReadULPage5),sizeof(ReadULPage5));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
if((g_cUartStatus!=UARTSTATUS_RXSUCC)||(RCVCMD_SL025x!=0x10)||(RCVSTA_SL025x!=0)) return;
if (memcmp(&WriteULPage5[4],&g_cUartRxBuf[4],4)!=0) return;
g_cErr=0;
break;
case 2: //Mifare_Pro
case 5: //Mifare_ProX
case 6: //Mifare_DesFire
g_cErr=4;
break;
default:
g_cErr=3;
break;
}
if(g_cErr!=0) return;
//Glare Red_Led to indicate working ok
SendBuf_UART((unsigned char *)(TurnOnRedLed),sizeof(TurnOnRedLed));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
Start_Time(300);
while(g_bOverTime==0);
Stop_Time();
SendBuf_UART((unsigned char *)(TurnOffRedLed),sizeof(TurnOffRedLed));
Start_Time(300);
while((g_cUartStatus!=UARTSTATUS_RXERR)&&(g_cUartStatus!=UARTSTATUS_RXSUCC)&&(g_bOverTime==0));
Stop_Time();
}