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main.c
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main.c
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// cpu: ATMega8
// speed: 8 MHz
//#define DEBUG
#define BACKDOOR
#define F_CPU 8000000UL
#include "sle4442.h"
#include "memory.h"
#include <avr/io.h>
#include <util/delay.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdlib.h>
volatile unsigned char is_start = 0;
volatile unsigned char is_stop = 0;
volatile unsigned char data_out = 0;
volatile unsigned char data_in = 0;
volatile unsigned char is_falling=0;
volatile unsigned char is_rising=0;
volatile unsigned char exec_reset=0;
volatile unsigned char count=0;
volatile unsigned char control=0;
volatile unsigned int addr=0;
volatile unsigned char data=0;
volatile unsigned char cmd=0;
volatile unsigned char fail=0;
volatile unsigned char byteProt=0;
volatile unsigned char bitProt=0;
volatile unsigned char *memPtr;
void EEPROM_write(unsigned int uiAddress, unsigned char ucData)
{
/* Wait for completion of previous write */
while(EECR & (1<<EEWE));
/* Set up address and data registers */
EEAR = uiAddress;EEDR = ucData;
/* Write logical one to EEMWE */
EECR |= (1<<EEMWE);
/* Start eeprom write by setting EEWE */
EECR |= (1<<EEWE);
}
void store_psc()
{
cli();
EEPROM_write(0x00,memorySecurity[1]);
EEPROM_write(0x01,memorySecurity[2]);
EEPROM_write(0x02,memorySecurity[3]);
sei();
}
static inline void falling_clock()
{
data_out = (memPtr[addr] >> pointerBit) & 0x01;
if (control==0xFF) //Fake "control" value for put at the output the ATR
{
if (addr==4 && pointerBit==1)
{
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
else if (control==0x30)
{
if (addr==256 && pointerBit==1)
{
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
else if (control==0x34)
{
if (addr==4 && pointerBit==1)
{
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
else if (control==0x31)
{
if (addr==4 && pointerBit==1)
{
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
else if (fail)
{
if (addr==0 && pointerBit==3)
{
fail = 0;
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
else if ((control==0x38 || control==0x3C) && fail==0)
{
if (addr==15 && pointerBit==5) //15*8 + 5 = 125
{
setInput();
mode = MODE_WAIT_START;
count = 0;
}
}
pointerBit++;
if (pointerBit==8)
{
pointerBit = 0;
addr++;
}
}
static inline void rising_clock()
{
cmd = (cmd << 1) | data_in;
if (count==7) //control ready
control = lut[cmd];
else if (count==15) //address ready
{
addr = lut[cmd];
//Put as output all zero, if i found a read command i change the pointer value
memPtr = memoryZero;
if (control==0x30) //Read Main Memory
memPtr = memoryMain;
else if (control==0x34) //Read Protection Memory
{
addr = 0;
memPtr = memoryProtected;
}
else if (control==0x31) //Read Security Memory
{
addr = 0;
memoryOut[0] = memorySecurity[0];
if (unlocked == 3)
memPtr = memorySecurity;
else
memPtr = memoryOut;
}
byteProt = (addr >> 3) & 0x03;
bitProt = addr & 0x07;
}
else if (count==16) //Use this extra counter value to execute some instructions
{
fail = 1;
if (control==0x38 && unlocked==3) //Update main memory
{
if (addr>31)
fail = 0;
else
fail = !((memoryProtected[byteProt] >> bitProt) & 0x01);
}
else if (control==0x3C && unlocked==3) //Write protection memory
{
if ((memoryProtected[byteProt] >> bitProt) & 0x01)
fail = 0;
addr = 0;
}
}
else if (count==23) //data ready
{
mode = MODE_WAIT_STOP;
pointerBit = 0;
data = lut[cmd];
if (control==0x38) //Update main memory
{
if (!fail)
memoryMain[addr] = data;
addr = 0;
}
else if (control==0x3C) //Write protection memory
{
if (!fail)
memoryProtected[byteProt] &= ~(1 << bitProt);
addr = 0;
}
else if (control==0x39) //Update security memory
{
if (unlocked == 3)
{
memorySecurity[addr] = data;
memorySecurity[0x00] &= 0x07;
fail = 0;
}
else if (addr == 0x00)
{
if (data <= memorySecurity[0x00])
{
memorySecurity[0x00] = data;
fail = 0;
}
else
fail = 1;
}
addr = 0;
}
else if (control==0x33) //Compare verification data
{
#ifdef BACKDOOR
if (addr != 0)
{
unlocked++;
memorySecurity[addr] = data;
if (unlocked >= 3)
{
unlocked = 3;
memorySecurity[0x00] = 0x07;
}
}
addr = 0;
#else
if ((memorySecurity[addr] == data) & (memorySecurity[0x00] != 0x00))
{
unlocked++;
if (unlocked >= 3)
{
unlocked = 3;
memorySecurity[0x00] = 0x07;
}
}
else
unlocked = 0;
addr = 0;
#endif
}
data_out = (unsigned char)(memPtr[addr]) & 0x01;
pointerBit++;
}
count++;
}
// Clock interrupt
ISR(INT0_vect)
{
//SET_DBG
data_in = (READ_IO) >> PIN_IO;
if (!(PIN & (1 << PIN_CLK)))
{
setIO(data_out);
if (is_start && !data_in)
{
pointerBit = 0;
setMode(MODE_CMD);
is_start = 0;
}
else if (is_stop && data_in)
{
setMode(MODE_OUT);
setOutput();
is_stop=0;
}
if (mode==MODE_OUT)
falling_clock();
}
else
{
if (PIN & (1 << PIN_RST))
{
setOutput();
setMode(MODE_OUT);
}
else if (data_in && mode==MODE_WAIT_START)
is_start = 1;
else if (!data_in && mode==MODE_WAIT_STOP)
is_stop = 1;
if (mode==MODE_CMD)
rising_clock();
}
//RESET_DBG
}
// Reset interrupt
ISR(INT1_vect)
{
exec_reset = 1;
}
int main(void) {
memPtr = memoryMain;
unlocked = 0;
// Activate interrupts
MCUCR |= (1 << ISC00) | (1 << ISC11) | (1 << ISC10);
GICR |= (1 << INT0) | (1 << INT1);
sei();
// Initialize port
PORT = 0x00;
DDR = 0x00;
PIN = 0x00;
DDR |= (1 << PIN_DBG);
RESET_DBG
setInput();
setMode(MODE_WAIT_START);
pointerBit = 0;
count = 0;
#ifdef DEBUG
initializeDebug();
#endif
while(1)
{
//=============================================================
// RESET ROUTINE
//=============================================================
if (exec_reset)
{
setInput();
setMode(MODE_WAIT_START);
pointerBit = 0;
is_rising = 0;
is_falling = 0;
count = 0;
addr = 0;
control = 0xFF; //Fake "control" for ATR
data_out = memoryMain[0] & 0x01;
pointerBit++;
exec_reset = 0;
}
}
}