225 lines
6.8 KiB
C++
225 lines
6.8 KiB
C++
#include "wiegand.h"
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#include <furi.h>
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#include <furi-hal.h>
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volatile unsigned long WIEGAND::_cardTempHigh = 0;
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volatile unsigned long WIEGAND::_cardTemp = 0;
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volatile unsigned long WIEGAND::_lastWiegand = 0;
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unsigned long WIEGAND::_code = 0;
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unsigned long WIEGAND::_codeHigh = 0;
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volatile int WIEGAND::_bitCount = 0;
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int WIEGAND::_wiegandType = 0;
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constexpr uint32_t clocks_in_ms = 64 * 1000;
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WIEGAND::WIEGAND() {
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}
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unsigned long WIEGAND::getCode() {
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return _code;
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}
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unsigned long WIEGAND::getCodeHigh() {
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return _codeHigh;
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}
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int WIEGAND::getWiegandType() {
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return _wiegandType;
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}
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bool WIEGAND::available() {
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bool ret;
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__disable_irq();
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ret = DoWiegandConversion();
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__enable_irq();
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return ret;
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}
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static void input_isr_d0(void* _ctx) {
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WIEGAND* _this = static_cast<WIEGAND*>(_ctx);
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_this->ReadD0();
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}
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static void input_isr_d1(void* _ctx) {
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WIEGAND* _this = static_cast<WIEGAND*>(_ctx);
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_this->ReadD1();
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}
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void WIEGAND::begin() {
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_lastWiegand = 0;
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_cardTempHigh = 0;
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_cardTemp = 0;
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_code = 0;
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_wiegandType = 0;
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_bitCount = 0;
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const GpioPin* pinD0 = &gpio_ext_pa6;
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const GpioPin* pinD1 = &gpio_ext_pa7;
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hal_gpio_init_simple(pinD0, GpioModeInterruptFall); // Set D0 pin as input
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hal_gpio_init_simple(pinD1, GpioModeInterruptFall); // Set D1 pin as input
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hal_gpio_add_int_callback(pinD0, input_isr_d0, this);
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hal_gpio_add_int_callback(pinD1, input_isr_d1, this);
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}
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void WIEGAND::end() {
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hal_gpio_remove_int_callback(&gpio_ext_pa6);
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hal_gpio_remove_int_callback(&gpio_ext_pa7);
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hal_gpio_init_simple(&gpio_ext_pa6, GpioModeAnalog);
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hal_gpio_init_simple(&gpio_ext_pa7, GpioModeAnalog);
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}
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void WIEGAND::ReadD0() {
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_bitCount++; // Increament bit count for Interrupt connected to D0
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if(_bitCount > 31) // If bit count more than 31, process high bits
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{
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_cardTempHigh |= ((0x80000000 & _cardTemp) >> 31); // shift value to high bits
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_cardTempHigh <<= 1;
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_cardTemp <<= 1;
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} else {
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_cardTemp <<= 1; // D0 represent binary 0, so just left shift card data
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}
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_lastWiegand = DWT->CYCCNT; // Keep track of last wiegand bit received
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}
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void WIEGAND::ReadD1() {
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_bitCount++; // Increment bit count for Interrupt connected to D1
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if(_bitCount > 31) // If bit count more than 31, process high bits
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{
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_cardTempHigh |= ((0x80000000 & _cardTemp) >> 31); // shift value to high bits
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_cardTempHigh <<= 1;
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_cardTemp |= 1;
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_cardTemp <<= 1;
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} else {
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_cardTemp |= 1; // D1 represent binary 1, so OR card data with 1 then
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_cardTemp <<= 1; // left shift card data
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}
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_lastWiegand = DWT->CYCCNT; // Keep track of last wiegand bit received
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}
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unsigned long WIEGAND::GetCardId(
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volatile unsigned long* codehigh,
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volatile unsigned long* codelow,
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char bitlength) {
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if(bitlength == 26) // EM tag
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return (*codelow & 0x1FFFFFE) >> 1;
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if(bitlength == 24) return (*codelow & 0x7FFFFE) >> 1;
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if(bitlength == 34) // Mifare
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{
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*codehigh = *codehigh & 0x03; // only need the 2 LSB of the codehigh
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*codehigh <<= 30; // shift 2 LSB to MSB
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*codelow >>= 1;
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return *codehigh | *codelow;
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}
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if(bitlength == 32) {
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return (*codelow & 0x7FFFFFFE) >> 1;
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}
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return *codelow; // EM tag or Mifare without parity bits
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}
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char translateEnterEscapeKeyPress(char originalKeyPress) {
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switch(originalKeyPress) {
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case 0x0b: // 11 or * key
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return 0x0d; // 13 or ASCII ENTER
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case 0x0a: // 10 or # key
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return 0x1b; // 27 or ASCII ESCAPE
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default:
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return originalKeyPress;
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}
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}
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bool WIEGAND::DoWiegandConversion() {
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unsigned long cardID;
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unsigned long sysTick = DWT->CYCCNT;
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if((sysTick - _lastWiegand) >
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(25 * clocks_in_ms)) // if no more signal coming through after 25ms
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{
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if((_bitCount == 24) || (_bitCount == 26) || (_bitCount == 32) || (_bitCount == 34) ||
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(_bitCount == 37) || (_bitCount == 40) || (_bitCount == 8) ||
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(_bitCount ==
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4)) // bitCount for keypress=4 or 8, Wiegand 26=24 or 26, Wiegand 34=32 or 34
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{
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_codeHigh = 0;
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// shift right 1 bit to get back the real value - interrupt done 1 left shift in advance
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_cardTemp >>= 1;
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// bit count more than 32 bits, shift high bits right to make adjustment
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if(_bitCount > 32) _cardTempHigh >>= 1;
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if(_bitCount == 8) // keypress wiegand with integrity
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{
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// 8-bit Wiegand keyboard data, high nibble is the "NOT" of low nibble
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// eg if key 1 pressed, data=E1 in binary 11100001 , high nibble=1110 , low nibble = 0001
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char highNibble = (_cardTemp & 0xf0) >> 4;
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char lowNibble = (_cardTemp & 0x0f);
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_wiegandType = _bitCount;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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if(lowNibble ==
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(~highNibble & 0x0f)) // check if low nibble matches the "NOT" of high nibble.
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{
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_code = (int)translateEnterEscapeKeyPress(lowNibble);
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return true;
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} else {
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_lastWiegand = sysTick;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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return false;
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}
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// TODO: Handle validation failure case!
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} else if(4 == _bitCount) {
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// 4-bit Wiegand codes have no data integrity check so we just
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// read the LOW nibble.
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_code = (int)translateEnterEscapeKeyPress(_cardTemp & 0x0000000F);
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_wiegandType = _bitCount;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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return true;
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} else if(40 == _bitCount) {
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_cardTempHigh >>= 1;
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_code = _cardTemp;
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_codeHigh = _cardTempHigh;
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_wiegandType = _bitCount;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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return true;
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} else {
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// wiegand 26 or wiegand 34
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cardID = GetCardId(&_cardTempHigh, &_cardTemp, _bitCount);
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_wiegandType = _bitCount;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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_code = cardID;
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return true;
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}
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} else {
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// well time over 25 ms and bitCount !=8 , !=26, !=34 , must be noise or nothing then.
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_lastWiegand = sysTick;
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_bitCount = 0;
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_cardTemp = 0;
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_cardTempHigh = 0;
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return false;
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}
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} else
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return false;
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} |