mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-22 02:33:10 +00:00
239 lines
6.4 KiB
C++
239 lines
6.4 KiB
C++
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#include "protocol-hid-h10301.h"
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#include <furi.h>
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typedef uint32_t HID10301CardData;
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constexpr uint8_t HID10301Count = 3;
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constexpr uint8_t HID10301BitSize = sizeof(HID10301CardData) * 8;
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static void write_raw_bit(bool bit, uint8_t position, HID10301CardData* card_data) {
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if(bit) {
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card_data[position / HID10301BitSize] |=
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1UL << (HID10301BitSize - (position % HID10301BitSize) - 1);
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} else {
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card_data[position / (sizeof(HID10301CardData) * 8)] &=
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~(1UL << (HID10301BitSize - (position % HID10301BitSize) - 1));
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}
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}
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static void write_bit(bool bit, uint8_t position, HID10301CardData* card_data) {
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write_raw_bit(bit, position + 0, card_data);
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write_raw_bit(!bit, position + 1, card_data);
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}
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uint8_t ProtocolHID10301::get_encoded_data_size() {
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return sizeof(HID10301CardData) * HID10301Count;
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}
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uint8_t ProtocolHID10301::get_decoded_data_size() {
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return 3;
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}
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void ProtocolHID10301::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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HID10301CardData card_data[HID10301Count] = {0, 0, 0};
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uint32_t fc_cn = (decoded_data[0] << 16) | (decoded_data[1] << 8) | decoded_data[2];
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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_cn >> 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_cn >> i) & 1) == 1) {
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odd_parity_sum++;
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}
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}
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// 0x1D preamble
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write_raw_bit(0, 0, card_data);
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write_raw_bit(0, 1, card_data);
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write_raw_bit(0, 2, card_data);
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write_raw_bit(1, 3, card_data);
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write_raw_bit(1, 4, card_data);
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write_raw_bit(1, 5, card_data);
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write_raw_bit(0, 6, card_data);
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write_raw_bit(1, 7, card_data);
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// company / OEM code 1
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write_bit(0, 8, card_data);
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write_bit(0, 10, card_data);
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write_bit(0, 12, card_data);
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write_bit(0, 14, card_data);
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write_bit(0, 16, card_data);
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write_bit(0, 18, card_data);
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write_bit(1, 20, card_data);
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// card format / length 1
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write_bit(0, 22, card_data);
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write_bit(0, 24, card_data);
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write_bit(0, 26, card_data);
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write_bit(0, 28, card_data);
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write_bit(0, 30, card_data);
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write_bit(0, 32, card_data);
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write_bit(0, 34, card_data);
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write_bit(0, 36, card_data);
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write_bit(0, 38, card_data);
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write_bit(0, 40, card_data);
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write_bit(1, 42, card_data);
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// even parity bit
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write_bit((even_parity_sum % 2), 44, card_data);
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// data
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for(uint8_t i = 0; i < 24; i++) {
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write_bit((fc_cn >> (23 - i)) & 1, 46 + (i * 2), card_data);
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}
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// odd parity bit
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write_bit((odd_parity_sum % 2), 94, card_data);
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memcpy(encoded_data, &card_data, get_encoded_data_size());
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}
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void ProtocolHID10301::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 HID10301CardData* card_data = reinterpret_cast<const HID10301CardData*>(encoded_data);
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// data decoding
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uint32_t result = 0;
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// decode from word 1
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// coded with 01 = 0, 10 = 1 transitions
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for(int8_t i = 9; i >= 0; i--) {
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switch((*(card_data + 1) >> (2 * i)) & 0b11) {
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case 0b01:
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result = (result << 1) | 0;
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break;
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case 0b10:
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result = (result << 1) | 1;
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break;
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default:
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break;
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}
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}
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// decode from word 2
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// coded with 01 = 0, 10 = 1 transitions
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for(int8_t i = 15; i >= 0; i--) {
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switch((*(card_data + 2) >> (2 * i)) & 0b11) {
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case 0b01:
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result = (result << 1) | 0;
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break;
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case 0b10:
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result = (result << 1) | 1;
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break;
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default:
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break;
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}
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}
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uint8_t data[3] = {(uint8_t)(result >> 17), (uint8_t)(result >> 9), (uint8_t)(result >> 1)};
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memcpy(decoded_data, &data, get_decoded_data_size());
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}
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bool ProtocolHID10301::can_be_decoded(const uint8_t* encoded_data, const uint8_t encoded_data_size) {
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furi_check(encoded_data_size >= get_encoded_data_size());
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const HID10301CardData* card_data = reinterpret_cast<const HID10301CardData*>(encoded_data);
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// packet preamble
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// raw data
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if(*(encoded_data + 3) != 0x1D) {
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return false;
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}
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// encoded company/oem
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// coded with 01 = 0, 10 = 1 transitions
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// stored in word 0
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if((*card_data >> 10 & 0x3FFF) != 0x1556) {
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return false;
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}
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// encoded format/length
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// coded with 01 = 0, 10 = 1 transitions
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// stored in word 0 and word 1
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if((((*card_data & 0x3FF) << 12) | ((*(card_data + 1) >> 20) & 0xFFF)) != 0x155556) {
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return false;
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}
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// data decoding
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uint32_t result = 0;
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// decode from word 1
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// coded with 01 = 0, 10 = 1 transitions
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for(int8_t i = 9; i >= 0; i--) {
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switch((*(card_data + 1) >> (2 * i)) & 0b11) {
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case 0b01:
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result = (result << 1) | 0;
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break;
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case 0b10:
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result = (result << 1) | 1;
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break;
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default:
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return false;
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break;
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}
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}
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// decode from word 2
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// coded with 01 = 0, 10 = 1 transitions
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for(int8_t i = 15; i >= 0; i--) {
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switch((*(card_data + 2) >> (2 * i)) & 0b11) {
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case 0b01:
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result = (result << 1) | 0;
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break;
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case 0b10:
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result = (result << 1) | 1;
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break;
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default:
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return false;
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break;
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}
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}
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// trailing parity (odd) test
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uint8_t parity_sum = 0;
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for(int8_t i = 0; i < 13; i++) {
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if(((result >> i) & 1) == 1) {
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parity_sum++;
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}
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}
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if((parity_sum % 2) != 1) {
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return false;
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}
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// leading parity (even) test
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parity_sum = 0;
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for(int8_t i = 13; i < 26; i++) {
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if(((result >> i) & 1) == 1) {
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parity_sum++;
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}
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}
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if((parity_sum % 2) == 1) {
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return false;
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}
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return true;
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}
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