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//-----------------------------------------------------------------------------
// Copyright (C) 2010 iZsh <izsh at fail0verflow.com>
//
// This code is licensed to you under the terms of the GNU GPL, version 2 or,
// at your option, any later version. See the LICENSE.txt file for the text of
// the license.
//-----------------------------------------------------------------------------
// Low frequency EM4x commands
//-----------------------------------------------------------------------------
#include "cmdlfem410x.h"
#include "cmdlfem4x50.h"
#include <stdio.h>
#include <string.h>
#include <inttypes.h>
#include <ctype.h>
#include <stdlib.h>
#include "fileutils.h"
#include "cmdparser.h" // command_t
#include "comms.h"
#include "commonutil.h"
#include "common.h"
#include "util_posix.h"
#include "protocols.h"
#include "ui.h"
#include "proxgui.h"
#include "graph.h"
#include "cmddata.h"
#include "cmdlf.h"
#include "lfdemod.h"
#include "generator.h"
#include "cliparser.h"
#include "cmdhw.h"
static uint64_t g_em410xid = 0;
static int CmdHelp(const char *Cmd);
//////////////// 410x commands
static int usage_lf_em410x_demod(void) {
PrintAndLogEx(NORMAL, "Usage: lf em 410x_demod [h] [clock] <0|1> [maxError]");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h - this help");
PrintAndLogEx(NORMAL, " clock - set clock as integer, optional, if not set, autodetect.");
PrintAndLogEx(NORMAL, " <0|1> - 0 normal output, 1 for invert output");
PrintAndLogEx(NORMAL, " maxerror - set maximum allowed errors, default = 100.");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_demod") " = demod an EM410x Tag ID from GraphBuffer");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_demod 32") " = demod an EM410x Tag ID from GraphBuffer using a clock of RF/32");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_demod 32 1") " = demod an EM410x Tag ID from GraphBuffer using a clock of RF/32 and inverting data");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_demod 1") " = demod an EM410x Tag ID from GraphBuffer while inverting data");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_demod 64 1 0") " = demod an EM410x Tag ID from GraphBuffer using a clock of RF/64 and inverting data and allowing 0 demod errors");
return PM3_SUCCESS;
}
static int usage_lf_em410x_watch(void) {
PrintAndLogEx(NORMAL, "Enables IOProx compatible reader mode printing details of scanned tags.");
PrintAndLogEx(NORMAL, "By default, values are printed and logged until the button is pressed or another USB command is issued.");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Usage: lf em 410x_watch");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_watch"));
return PM3_SUCCESS;
}
static int usage_lf_em410x_clone(void) {
PrintAndLogEx(NORMAL, "Writes EM410x ID to a T55x7 or Q5/T5555 tag");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Usage: lf em 410x_clone [h] <id> <card> [clock]");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h - this help");
PrintAndLogEx(NORMAL, " <id> - ID number");
PrintAndLogEx(NORMAL, " <card> - 0|1 0 = Q5/T5555, 1 = T55x7");
PrintAndLogEx(NORMAL, " <clock> - 16|32|40|64, optional, set R/F clock rate, defaults to 64");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_clone 0F0368568B 1") " = write ID to t55x7 card");
return PM3_SUCCESS;
}
static int usage_lf_em410x_ws(void) {
PrintAndLogEx(NORMAL, "Watch 'nd Spoof, activates reader, waits until a EM410x tag gets presented then it starts simulating the found UID");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Usage: lf em 410x_spoof [h]");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h - this help");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_spoof"));
return PM3_SUCCESS;
}
static int usage_lf_em410x_sim(void) {
PrintAndLogEx(NORMAL, "Simulating EM410x tag");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Usage: lf em 410x_sim [h] <uid> <clock>");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h - this help");
PrintAndLogEx(NORMAL, " uid - uid (10 HEX symbols)");
PrintAndLogEx(NORMAL, " clock - clock (32|64) (optional)");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_sim 0F0368568B"));
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_sim 0F0368568B 32"));
return PM3_SUCCESS;
}
static int usage_lf_em410x_brute(void) {
PrintAndLogEx(NORMAL, "Bruteforcing by emulating EM410x tag");
PrintAndLogEx(NORMAL, "");
PrintAndLogEx(NORMAL, "Usage: lf em 410x_brute [h] ids.txt [d 2000] [c clock]");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h - this help");
PrintAndLogEx(NORMAL, " ids.txt - file with UIDs in HEX format, one per line");
PrintAndLogEx(NORMAL, " d (2000) - pause delay in milliseconds between UIDs simulation, default 1000 ms (optional)");
PrintAndLogEx(NORMAL, " c (32) - clock (32|64), default 64 (optional)");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_brute ids.txt"));
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_brute ids.txt c 32"));
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_brute ids.txt d 3000"));
PrintAndLogEx(NORMAL, _YELLOW_(" lf em 410x_brute ids.txt d 3000 c 32"));
return PM3_SUCCESS;
}
/* Read the ID of an EM410x tag.
* Format:
* 1111 1111 1 <-- standard non-repeatable header
* XXXX [row parity bit] <-- 10 rows of 5 bits for our 40 bit tag ID
* ....
* CCCC <-- each bit here is parity for the 10 bits above in corresponding column
* 0 <-- stop bit, end of tag
*/
// Construct the graph for emulating an EM410X tag
static void ConstructEM410xEmulGraph(const char *uid, const uint8_t clock) {
int i, j, binary[4], parity[4];
uint32_t n;
/* clear our graph */
ClearGraph(true);
/* write 16 zero bit sledge */
for (i = 0; i < 20; i++)
AppendGraph(false, clock, 0);
/* write 9 start bits */
for (i = 0; i < 9; i++)
AppendGraph(false, clock, 1);
/* for each hex char */
parity[0] = parity[1] = parity[2] = parity[3] = 0;
for (i = 0; i < 10; i++) {
/* read each hex char */
sscanf(&uid[i], "%1x", &n);
for (j = 3; j >= 0; j--, n /= 2)
binary[j] = n % 2;
/* append each bit */
AppendGraph(false, clock, binary[0]);
AppendGraph(false, clock, binary[1]);
AppendGraph(false, clock, binary[2]);
AppendGraph(false, clock, binary[3]);
/* append parity bit */
AppendGraph(false, clock, binary[0] ^ binary[1] ^ binary[2] ^ binary[3]);
/* keep track of column parity */
parity[0] ^= binary[0];
parity[1] ^= binary[1];
parity[2] ^= binary[2];
parity[3] ^= binary[3];
}
/* parity columns */
AppendGraph(false, clock, parity[0]);
AppendGraph(false, clock, parity[1]);
AppendGraph(false, clock, parity[2]);
AppendGraph(false, clock, parity[3]);
/* stop bit */
AppendGraph(true, clock, 0);
}
//by marshmellow
//print 64 bit EM410x ID in multiple formats
void printEM410x(uint32_t hi, uint64_t id) {
if (!id && !hi) return;
PrintAndLogEx(SUCCESS, "EM410x%s pattern found", (hi) ? " XL" : "");
uint64_t n = 1;
uint64_t id2lo = 0;
uint8_t m, i;
for (m = 5; m > 0; m--) {
for (i = 0; i < 8; i++) {
id2lo = (id2lo << 1LL) | ((id & (n << (i + ((m - 1) * 8)))) >> (i + ((m - 1) * 8)));
}
}
if (hi) {
//output 88 bit em id
PrintAndLogEx(NORMAL, "\nEM TAG ID : "_YELLOW_("%06X%016" PRIX64), hi, id);
PrintAndLogEx(NORMAL, "Clock rate : "_YELLOW_("RF/%d"), g_DemodClock);
} else {
//output 40 bit em id
PrintAndLogEx(NORMAL, "\nEM TAG ID : "_YELLOW_("%010" PRIX64), id);
PrintAndLogEx(NORMAL, "Clock rate : "_YELLOW_("RF/%d"), g_DemodClock);
PrintAndLogEx(NORMAL, "\nPossible de-scramble patterns\n");
PrintAndLogEx(NORMAL, "Unique TAG ID : %010" PRIX64, id2lo);
PrintAndLogEx(NORMAL, "HoneyWell IdentKey {");
PrintAndLogEx(NORMAL, "DEZ 8 : %08" PRIu64, id & 0xFFFFFF);
PrintAndLogEx(NORMAL, "DEZ 10 : %010" PRIu64, id & 0xFFFFFFFF);
PrintAndLogEx(NORMAL, "DEZ 5.5 : %05" PRIu64 ".%05" PRIu64, (id >> 16LL) & 0xFFFF, (id & 0xFFFF));
PrintAndLogEx(NORMAL, "DEZ 3.5A : %03" PRIu64 ".%05" PRIu64, (id >> 32ll), (id & 0xFFFF));
PrintAndLogEx(NORMAL, "DEZ 3.5B : %03" PRIu64 ".%05" PRIu64, (id & 0xFF000000) >> 24, (id & 0xFFFF));
PrintAndLogEx(NORMAL, "DEZ 3.5C : %03" PRIu64 ".%05" PRIu64, (id & 0xFF0000) >> 16, (id & 0xFFFF));
PrintAndLogEx(NORMAL, "DEZ 14/IK2 : %014" PRIu64, id);
PrintAndLogEx(NORMAL, "DEZ 15/IK3 : %015" PRIu64, id2lo);
PrintAndLogEx(NORMAL, "DEZ 20/ZK : %02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64 "%02" PRIu64,
(id2lo & 0xf000000000) >> 36,
(id2lo & 0x0f00000000) >> 32,
(id2lo & 0x00f0000000) >> 28,
(id2lo & 0x000f000000) >> 24,
(id2lo & 0x0000f00000) >> 20,
(id2lo & 0x00000f0000) >> 16,
(id2lo & 0x000000f000) >> 12,
(id2lo & 0x0000000f00) >> 8,
(id2lo & 0x00000000f0) >> 4,
(id2lo & 0x000000000f)
);
uint64_t paxton = (((id >> 32) << 24) | (id & 0xffffff)) + 0x143e00;
PrintAndLogEx(NORMAL, "}\nOther : %05" PRIu64 "_%03" PRIu64 "_%08" PRIu64, (id & 0xFFFF), ((id >> 16LL) & 0xFF), (id & 0xFFFFFF));
PrintAndLogEx(NORMAL, "Pattern Paxton : %" PRIu64 " [0x%" PRIX64 "]", paxton, paxton);
uint32_t p1id = (id & 0xFFFFFF);
uint8_t arr[32] = {0x00};
int j = 23;
for (int k = 0 ; k < 24; ++k, --j) {
arr[k] = (p1id >> k) & 1;
}
uint32_t p1 = 0;
p1 |= arr[23] << 21;
p1 |= arr[22] << 23;
p1 |= arr[21] << 20;
p1 |= arr[20] << 22;
p1 |= arr[19] << 18;
p1 |= arr[18] << 16;
p1 |= arr[17] << 19;
p1 |= arr[16] << 17;
p1 |= arr[15] << 13;
p1 |= arr[14] << 15;
p1 |= arr[13] << 12;
p1 |= arr[12] << 14;
p1 |= arr[11] << 6;
p1 |= arr[10] << 2;
p1 |= arr[9] << 7;
p1 |= arr[8] << 1;
p1 |= arr[7] << 0;
p1 |= arr[6] << 8;
p1 |= arr[5] << 11;
p1 |= arr[4] << 3;
p1 |= arr[3] << 10;
p1 |= arr[2] << 4;
p1 |= arr[1] << 5;
p1 |= arr[0] << 9;
PrintAndLogEx(NORMAL, "Pattern 1 : %d [0x%X]", p1, p1);
uint16_t sebury1 = id & 0xFFFF;
uint8_t sebury2 = (id >> 16) & 0x7F;
uint32_t sebury3 = id & 0x7FFFFF;
PrintAndLogEx(NORMAL, "Pattern Sebury : %d %d %d [0x%X 0x%X 0x%X]", sebury1, sebury2, sebury3, sebury1, sebury2, sebury3);
}
}
/* Read the ID of an EM410x tag.
* Format:
* 1111 1111 1 <-- standard non-repeatable header
* XXXX [row parity bit] <-- 10 rows of 5 bits for our 40 bit tag ID
* ....
* CCCC <-- each bit here is parity for the 10 bits above in corresponding column
* 0 <-- stop bit, end of tag
*/
int AskEm410xDecode(bool verbose, uint32_t *hi, uint64_t *lo) {
size_t idx = 0;
uint8_t bits[512] = {0};
size_t size = sizeof(bits);
if (!getDemodBuff(bits, &size)) {
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x problem during copy from ASK demod");
return PM3_ESOFT;
}
int ans = Em410xDecode(bits, &size, &idx, hi, lo);
if (ans < 0) {
if (ans == -2)
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x not enough samples after demod");
else if (ans == -4)
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x preamble not found");
else if (ans == -5)
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x Size not correct: %zu", size);
else if (ans == -6)
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x parity failed");
return PM3_ESOFT;
}
if (!lo && !hi) {
PrintAndLogEx(DEBUG, "DEBUG: Error - Em410x decoded to all zeros");
return PM3_ESOFT;
}
//set GraphBuffer for clone or sim command
setDemodBuff(DemodBuffer, (size == 40) ? 64 : 128, idx + 1);
setClockGrid(g_DemodClock, g_DemodStartIdx + ((idx + 1)*g_DemodClock));
PrintAndLogEx(DEBUG, "DEBUG: Em410x idx: %zu, Len: %zu, Printing Demod Buffer:", idx, size);
if (g_debugMode) {
printDemodBuff(0, false, false, true);
}
if (verbose)
printEM410x(*hi, *lo);
return PM3_SUCCESS;
}
int AskEm410xDemod(int clk, int invert, int maxErr, size_t maxLen, bool amplify, uint32_t *hi, uint64_t *lo, bool verbose) {
bool st = true;
// em410x simulation etc uses 0/1 as signal data. This must be converted in order to demod it back again
if (isGraphBitstream()) {
convertGraphFromBitstream();
}
if (ASKDemod_ext(clk, invert, maxErr, maxLen, amplify, false, false, 1, &st) != PM3_SUCCESS)
return PM3_ESOFT;
return AskEm410xDecode(verbose, hi, lo);
}
// this read loops on device side.
// uses the demod in lfops.c
static int CmdEM410xWatch(const char *Cmd) {
uint8_t c = tolower(param_getchar(Cmd, 0));
if (c == 'h') return usage_lf_em410x_watch();
PrintAndLogEx(SUCCESS, "Watching for EM410x cards - place tag on antenna");
PrintAndLogEx(INFO, "Press pm3-button to stop reading cards");
clearCommandBuffer();
SendCommandNG(CMD_LF_EM410X_WATCH, NULL, 0);
PacketResponseNG resp;
WaitForResponse(CMD_LF_EM410X_WATCH, &resp);
PrintAndLogEx(INFO, "Done");
return resp.status;
}
//by marshmellow
//takes 3 arguments - clock, invert and maxErr as integers
//attempts to demodulate ask while decoding manchester
//prints binary found and saves in graphbuffer for further commands
int demodEM410x(bool verbose) {
(void) verbose; // unused so far
uint32_t hi = 0;
uint64_t lo = 0;
return AskEm410xDemod(0, 0, 100, 0, false, &hi, &lo, true);
}
static int CmdEM410xDemod(const char *Cmd) {
char cmdp = tolower(param_getchar(Cmd, 0));
if (strlen(Cmd) > 10 || cmdp == 'h') return usage_lf_em410x_demod();
uint32_t hi = 0;
uint64_t lo = 0;
int clk = 0;
int invert = 0;
int maxErr = 100;
size_t maxLen = 0;
char amp = tolower(param_getchar(Cmd, 0));
sscanf(Cmd, "%i %i %i %zu %c", &clk, &invert, &maxErr, &maxLen, &amp);
bool amplify = amp == 'a';
if (AskEm410xDemod(clk, invert, maxErr, maxLen, amplify, &hi, &lo, true) != PM3_SUCCESS)
return PM3_ESOFT;
g_em410xid = lo;
return PM3_SUCCESS;
}
// this read is the "normal" read, which download lf signal and tries to demod here.
static int CmdEM410xRead(const char *Cmd) {
char cmdp = tolower(param_getchar(Cmd, 0));
if (strlen(Cmd) > 10 || cmdp == 'h') return usage_lf_em410x_demod();
uint32_t hi = 0;
uint64_t lo = 0;
int clk = 0;
int invert = 0;
int maxErr = 100;
size_t maxLen = 0;
char amp = tolower(param_getchar(Cmd, 0));
sscanf(Cmd, "%i %i %i %zu %c", &clk, &invert, &maxErr, &maxLen, &amp);
bool amplify = amp == 'a';
lf_read(false, 12288);
return AskEm410xDemod(clk, invert, maxErr, maxLen, amplify, &hi, &lo, true);
}
// emulate an EM410X tag
static int CmdEM410xSim(const char *Cmd) {
char cmdp = tolower(param_getchar(Cmd, 0));
if (cmdp == 'h') return usage_lf_em410x_sim();
uint8_t uid[5] = {0x00};
/* clock is 64 in EM410x tags */
uint8_t clk = 64;
if (param_gethex(Cmd, 0, uid, 10)) {
PrintAndLogEx(FAILED, "UID must include 10 HEX symbols");
return PM3_EINVARG;
}
param_getdec(Cmd, 1, &clk);
PrintAndLogEx(SUCCESS, "Starting simulating UID "_YELLOW_("%02X%02X%02X%02X%02X")" clock: "_YELLOW_("%d"), uid[0], uid[1], uid[2], uid[3], uid[4], clk);
PrintAndLogEx(SUCCESS, "Press pm3-button to abort simulation");
ConstructEM410xEmulGraph(Cmd, clk);
CmdLFSim("0"); //240 start_gap.
return PM3_SUCCESS;
}
static int CmdEM410xBrute(const char *Cmd) {
char filename[FILE_PATH_SIZE] = {0};
FILE *f = NULL;
char buf[11];
uint32_t uidcnt = 0;
uint8_t stUidBlock = 20;
uint8_t *uidBlock = NULL, *p = NULL;
uint8_t uid[5] = {0x00};
/* clock is 64 in EM410x tags */
uint8_t clock1 = 64;
/* default pause time: 1 second */
uint32_t delay = 1000;
char cmdp = tolower(param_getchar(Cmd, 0));
if (cmdp == 'h') return usage_lf_em410x_brute();
cmdp = tolower(param_getchar(Cmd, 1));
if (cmdp == 'd') {
delay = param_get32ex(Cmd, 2, 1000, 10);
param_getdec(Cmd, 4, &clock1);
} else if (cmdp == 'c') {
param_getdec(Cmd, 2, &clock1);
delay = param_get32ex(Cmd, 4, 1000, 10);
}
int filelen = param_getstr(Cmd, 0, filename, FILE_PATH_SIZE);
if (filelen == 0) {
PrintAndLogEx(ERR, "Error: Please specify a filename");
return PM3_EINVARG;
}
if ((f = fopen(filename, "r")) == NULL) {
PrintAndLogEx(ERR, "Error: Could not open UIDs file ["_YELLOW_("%s")"]", filename);
return PM3_EFILE;
}
uidBlock = calloc(stUidBlock, 5);
if (uidBlock == NULL) {
fclose(f);
return PM3_ESOFT;
}
while (fgets(buf, sizeof(buf), f)) {
if (strlen(buf) < 10 || buf[9] == '\n') continue;
while (fgetc(f) != '\n' && !feof(f)); //goto next line
//The line start with # is comment, skip
if (buf[0] == '#') continue;
if (param_gethex(buf, 0, uid, 10)) {
PrintAndLogEx(FAILED, "UIDs must include 10 HEX symbols");
free(uidBlock);
fclose(f);
return PM3_ESOFT;
}
buf[10] = 0;
if (stUidBlock - uidcnt < 2) {
p = realloc(uidBlock, 5 * (stUidBlock += 10));
if (!p) {
PrintAndLogEx(WARNING, "Cannot allocate memory for UIDs");
free(uidBlock);
fclose(f);
return PM3_ESOFT;
}
uidBlock = p;
}
memset(uidBlock + 5 * uidcnt, 0, 5);
num_to_bytes(strtoll(buf, NULL, 16), 5, uidBlock + 5 * uidcnt);
uidcnt++;
memset(buf, 0, sizeof(buf));
}
fclose(f);
if (uidcnt == 0) {
PrintAndLogEx(FAILED, "No UIDs found in file");
free(uidBlock);
return PM3_ESOFT;
}
PrintAndLogEx(SUCCESS, "Loaded "_YELLOW_("%d")" UIDs from "_YELLOW_("%s")", pause delay:"_YELLOW_("%d")" ms", uidcnt, filename, delay);
// loop
for (uint32_t c = 0; c < uidcnt; ++c) {
char testuid[11];
testuid[10] = 0;
if (kbd_enter_pressed()) {
PrintAndLogEx(WARNING, "\nAborted via keyboard!\n");
free(uidBlock);
return PM3_EOPABORTED;
}
sprintf(testuid, "%010" PRIX64, bytes_to_num(uidBlock + 5 * c, 5));
PrintAndLogEx(NORMAL, "Bruteforce %d / %d: simulating UID %s, clock %d", c + 1, uidcnt, testuid, clock1);
ConstructEM410xEmulGraph(testuid, clock1);
CmdLFSim("0"); //240 start_gap.
msleep(delay);
}
free(uidBlock);
return PM3_SUCCESS;
}
//currently only supports manchester modulations
static int CmdEM410xWatchnSpoof(const char *Cmd) {
char cmdp = tolower(param_getchar(Cmd, 0));
if (cmdp == 'h') return usage_lf_em410x_ws();
// loops if the captured ID was in XL-format.
CmdEM410xWatch(Cmd);
PrintAndLogEx(SUCCESS, "# Replaying captured ID: "_YELLOW_("%010" PRIx64), g_em410xid);
CmdLFaskSim("");
return PM3_SUCCESS;
}
static int CmdEM410xClone(const char *Cmd) {
char cmdp = tolower(param_getchar(Cmd, 0));
if (cmdp == 0x00 || cmdp == 'h') return usage_lf_em410x_clone();
uint64_t id = param_get64ex(Cmd, 0, -1, 16);
uint8_t card = param_get8ex(Cmd, 1, 0xFF, 10);
uint8_t clock1 = param_get8ex(Cmd, 2, 0, 10);
// Check ID
if (id == 0xFFFFFFFFFFFFFFFF) {
PrintAndLogEx(ERR, "error, ID is required\n");
usage_lf_em410x_clone();
return PM3_EINVARG;
}
if (id >= 0x10000000000) {
PrintAndLogEx(ERR, "error, given EM410x ID is longer than 40 bits\n");
usage_lf_em410x_clone();
return PM3_EINVARG;
}
// Check Card
if (card > 1) {
PrintAndLogEx(FAILED, "error, bad card type selected\n");
usage_lf_em410x_clone();
return PM3_EINVARG;
}
// Check Clock
if (clock1 == 0)
clock1 = 64;
// Allowed clock rates: 16, 32, 40 and 64
if ((clock1 != 16) && (clock1 != 32) && (clock1 != 64) && (clock1 != 40)) {
PrintAndLogEx(FAILED, "error, clock rate" _RED_("%d")" not valid", clock1);
PrintAndLogEx(INFO, "supported clock rates: " _YELLOW_("16, 32, 40, 60") "\n");
usage_lf_em410x_clone();
return PM3_EINVARG;
}
PrintAndLogEx(SUCCESS, "Writing " _YELLOW_("%s") " tag with UID 0x%010" PRIx64 " (clock rate: %d)", (card == 1) ? "T55x7" : "Q5/T5555", id, clock1);
// NOTE: We really should pass the clock in as a separate argument, but to
// provide for backwards-compatibility for older firmware, and to avoid
// having to add another argument to CMD_LF_EM410X_WRITE, we just store
// the clock rate in bits 8-15 of the card value
struct {
uint8_t card;
uint8_t clock;
uint32_t high;
uint32_t low;
} PACKED params;
params.card = card;
params.clock = clock1;
params.high = (uint32_t)(id >> 32);
params.low = (uint32_t)id;
clearCommandBuffer();
SendCommandNG(CMD_LF_EM410X_WRITE, (uint8_t *)&params, sizeof(params));
PacketResponseNG resp;
WaitForResponse(CMD_LF_EM410X_WRITE, &resp);
switch (resp.status) {
case PM3_SUCCESS: {
PrintAndLogEx(SUCCESS, "Done");
PrintAndLogEx(HINT, "Hint: try " _YELLOW_("`lf em 410x_read`") " to verify");
break;
}
default: {
PrintAndLogEx(WARNING, "Something went wrong");
break;
}
}
return resp.status;
}
static command_t CommandTable[] = {
{"help", CmdHelp, AlwaysAvailable, "This help"},
//{"demod", CmdEMdemodASK, IfPm3Lf, "Extract ID from EM410x tag on antenna)"},
{"demod", CmdEM410xDemod, AlwaysAvailable, "demodulate a EM410x tag from the GraphBuffer"},
{"read", CmdEM410xRead, IfPm3Lf, "attempt to read and extract tag data"},
{"sim", CmdEM410xSim, IfPm3Lf, "simulate EM410x tag"},
{"brute", CmdEM410xBrute, IfPm3Lf, "reader bruteforce attack by simulating EM410x tags"},
{"watch", CmdEM410xWatch, IfPm3Lf, "watches for EM410x 125/134 kHz tags (option 'h' for 134)"},
{"spoof", CmdEM410xWatchnSpoof, IfPm3Lf, "watches for EM410x 125/134 kHz tags, and replays them. (option 'h' for 134)" },
{"clone", CmdEM410xClone, IfPm3Lf, "write EM410x UID to T55x7 or Q5/T5555 tag"},
{NULL, NULL, NULL, NULL}
};
static int CmdHelp(const char *Cmd) {
(void)Cmd; // Cmd is not used so far
CmdsHelp(CommandTable);
return PM3_SUCCESS;
}
int CmdLFEM410X(const char *Cmd) {
clearCommandBuffer();
return CmdsParse(CommandTable, Cmd);
}