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https://github.com/DarkFlippers/unleashed-firmware
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389ff92cc1
* Makefile, Scripts: new linter * About: remove ID from IC * Firmware: remove double define for DIVC/DIVR * Scripts: check folder names too. Docker: replace syntax check with make lint. * Reformat Sources and Migrate to new file naming convention * Docker: symlink clang-format-12 to clang-format * Add coding style guide
237 lines
No EOL
7.6 KiB
C++
237 lines
No EOL
7.6 KiB
C++
#include "protocol_indala_40134.h"
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#include <furi.h>
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typedef uint64_t Indala40134CardData;
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static void set_bit(bool bit, uint8_t position, Indala40134CardData* card_data) {
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position = (sizeof(Indala40134CardData) * 8) - 1 - position;
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if(bit) {
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*card_data |= 1ull << position;
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} else {
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*card_data &= ~(1ull << position);
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}
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}
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static bool get_bit(uint8_t position, const Indala40134CardData* card_data) {
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position = (sizeof(Indala40134CardData) * 8) - 1 - position;
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return (*card_data >> position) & 1;
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}
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uint8_t ProtocolIndala40134::get_encoded_data_size() {
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return sizeof(Indala40134CardData);
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}
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uint8_t ProtocolIndala40134::get_decoded_data_size() {
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return 3;
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}
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void ProtocolIndala40134::encode(
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const uint8_t* decoded_data,
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const uint8_t decoded_data_size,
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uint8_t* encoded_data,
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const uint8_t encoded_data_size) {
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furi_check(decoded_data_size >= get_decoded_data_size());
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furi_check(encoded_data_size >= get_encoded_data_size());
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uint32_t fc_and_card = (decoded_data[0] << 16) | (decoded_data[1] << 8) | decoded_data[2];
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Indala40134CardData card_data = 0;
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// preamble
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set_bit(1, 0, &card_data);
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set_bit(1, 2, &card_data);
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set_bit(1, 32, &card_data);
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// factory code
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set_bit(((fc_and_card >> 23) & 1), 57, &card_data);
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set_bit(((fc_and_card >> 22) & 1), 49, &card_data);
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set_bit(((fc_and_card >> 21) & 1), 44, &card_data);
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set_bit(((fc_and_card >> 20) & 1), 47, &card_data);
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set_bit(((fc_and_card >> 19) & 1), 48, &card_data);
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set_bit(((fc_and_card >> 18) & 1), 53, &card_data);
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set_bit(((fc_and_card >> 17) & 1), 39, &card_data);
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set_bit(((fc_and_card >> 16) & 1), 58, &card_data);
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// card number
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set_bit(((fc_and_card >> 15) & 1), 42, &card_data);
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set_bit(((fc_and_card >> 14) & 1), 45, &card_data);
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set_bit(((fc_and_card >> 13) & 1), 43, &card_data);
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set_bit(((fc_and_card >> 12) & 1), 40, &card_data);
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set_bit(((fc_and_card >> 11) & 1), 52, &card_data);
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set_bit(((fc_and_card >> 10) & 1), 36, &card_data);
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set_bit(((fc_and_card >> 9) & 1), 35, &card_data);
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set_bit(((fc_and_card >> 8) & 1), 51, &card_data);
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set_bit(((fc_and_card >> 7) & 1), 46, &card_data);
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set_bit(((fc_and_card >> 6) & 1), 33, &card_data);
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set_bit(((fc_and_card >> 5) & 1), 37, &card_data);
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set_bit(((fc_and_card >> 4) & 1), 54, &card_data);
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set_bit(((fc_and_card >> 3) & 1), 56, &card_data);
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set_bit(((fc_and_card >> 2) & 1), 59, &card_data);
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set_bit(((fc_and_card >> 1) & 1), 50, &card_data);
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set_bit(((fc_and_card >> 0) & 1), 41, &card_data);
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// checksum
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uint8_t checksum = 0;
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checksum += ((fc_and_card >> 14) & 1);
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checksum += ((fc_and_card >> 12) & 1);
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checksum += ((fc_and_card >> 9) & 1);
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checksum += ((fc_and_card >> 8) & 1);
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checksum += ((fc_and_card >> 6) & 1);
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checksum += ((fc_and_card >> 5) & 1);
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checksum += ((fc_and_card >> 2) & 1);
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checksum += ((fc_and_card >> 0) & 1);
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// wiegand parity bits
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// even parity sum calculation (high 12 bits of data)
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uint8_t even_parity_sum = 0;
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for(int8_t i = 12; i < 24; i++) {
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if(((fc_and_card >> i) & 1) == 1) {
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even_parity_sum++;
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}
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}
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// odd parity sum calculation (low 12 bits of data)
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uint8_t odd_parity_sum = 1;
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for(int8_t i = 0; i < 12; i++) {
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if(((fc_and_card >> i) & 1) == 1) {
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odd_parity_sum++;
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}
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}
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// even parity bit
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set_bit((even_parity_sum % 2), 34, &card_data);
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// odd parity bit
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set_bit((odd_parity_sum % 2), 38, &card_data);
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// checksum
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if((checksum & 1) == 1) {
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set_bit(0, 62, &card_data);
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set_bit(1, 63, &card_data);
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} else {
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set_bit(1, 62, &card_data);
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set_bit(0, 63, &card_data);
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}
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memcpy(encoded_data, &card_data, get_encoded_data_size());
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}
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// factory code
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static uint8_t get_fc(const Indala40134CardData* card_data) {
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uint8_t fc = 0;
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fc = fc << 1 | get_bit(57, card_data);
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fc = fc << 1 | get_bit(49, card_data);
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fc = fc << 1 | get_bit(44, card_data);
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fc = fc << 1 | get_bit(47, card_data);
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fc = fc << 1 | get_bit(48, card_data);
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fc = fc << 1 | get_bit(53, card_data);
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fc = fc << 1 | get_bit(39, card_data);
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fc = fc << 1 | get_bit(58, card_data);
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return fc;
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}
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// card number
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static uint16_t get_cn(const Indala40134CardData* card_data) {
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uint16_t cn = 0;
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cn = cn << 1 | get_bit(42, card_data);
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cn = cn << 1 | get_bit(45, card_data);
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cn = cn << 1 | get_bit(43, card_data);
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cn = cn << 1 | get_bit(40, card_data);
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cn = cn << 1 | get_bit(52, card_data);
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cn = cn << 1 | get_bit(36, card_data);
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cn = cn << 1 | get_bit(35, card_data);
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cn = cn << 1 | get_bit(51, card_data);
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cn = cn << 1 | get_bit(46, card_data);
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cn = cn << 1 | get_bit(33, card_data);
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cn = cn << 1 | get_bit(37, card_data);
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cn = cn << 1 | get_bit(54, card_data);
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cn = cn << 1 | get_bit(56, card_data);
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cn = cn << 1 | get_bit(59, card_data);
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cn = cn << 1 | get_bit(50, card_data);
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cn = cn << 1 | get_bit(41, card_data);
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return cn;
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}
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void ProtocolIndala40134::decode(
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const uint8_t* encoded_data,
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const uint8_t encoded_data_size,
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uint8_t* decoded_data,
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const uint8_t decoded_data_size) {
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furi_check(decoded_data_size >= get_decoded_data_size());
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furi_check(encoded_data_size >= get_encoded_data_size());
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const Indala40134CardData* card_data =
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reinterpret_cast<const Indala40134CardData*>(encoded_data);
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uint8_t fc = get_fc(card_data);
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uint16_t card = get_cn(card_data);
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decoded_data[0] = fc;
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decoded_data[1] = card >> 8;
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decoded_data[2] = card;
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}
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bool ProtocolIndala40134::can_be_decoded(
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const uint8_t* encoded_data,
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const uint8_t encoded_data_size) {
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furi_check(encoded_data_size >= get_encoded_data_size());
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bool can_be_decoded = false;
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const Indala40134CardData* card_data =
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reinterpret_cast<const Indala40134CardData*>(encoded_data);
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do {
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// preambula
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if((*card_data >> 32) != 0xa0000000UL) break;
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// data
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const uint32_t fc_and_card = get_fc(card_data) << 16 | get_cn(card_data);
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// checksum
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const uint8_t checksum = get_bit(62, card_data) << 1 | get_bit(63, card_data);
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uint8_t checksum_sum = 0;
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checksum_sum += ((fc_and_card >> 14) & 1);
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checksum_sum += ((fc_and_card >> 12) & 1);
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checksum_sum += ((fc_and_card >> 9) & 1);
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checksum_sum += ((fc_and_card >> 8) & 1);
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checksum_sum += ((fc_and_card >> 6) & 1);
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checksum_sum += ((fc_and_card >> 5) & 1);
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checksum_sum += ((fc_and_card >> 2) & 1);
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checksum_sum += ((fc_and_card >> 0) & 1);
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checksum_sum = checksum_sum & 0b1;
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if(checksum_sum == 1 && checksum == 0b01) {
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} else if(checksum_sum == 0 && checksum == 0b10) {
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} else {
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break;
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}
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// wiegand parity bits
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// even parity sum calculation (high 12 bits of data)
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const bool even_parity = get_bit(34, card_data);
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uint8_t even_parity_sum = 0;
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for(int8_t i = 12; i < 24; i++) {
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if(((fc_and_card >> i) & 1) == 1) {
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even_parity_sum++;
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}
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}
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if(even_parity_sum % 2 != even_parity) break;
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// odd parity sum calculation (low 12 bits of data)
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const bool odd_parity = get_bit(38, card_data);
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uint8_t odd_parity_sum = 1;
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for(int8_t i = 0; i < 12; i++) {
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if(((fc_and_card >> i) & 1) == 1) {
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odd_parity_sum++;
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}
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}
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if(odd_parity_sum % 2 != odd_parity) break;
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can_be_decoded = true;
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} while(false);
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return can_be_decoded;
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} |