mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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7d5ebac993
Conflicts: armsrc/iso14443.c armsrc/iso14443a.c client/cmdhf.c client/cmdhf14b.c
411 lines
11 KiB
C
411 lines
11 KiB
C
//-----------------------------------------------------------------------------
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// Copyright (C) 2010 iZsh <izsh at fail0verflow.com>
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//
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// This code is licensed to you under the terms of the GNU GPL, version 2 or,
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// at your option, any later version. See the LICENSE.txt file for the text of
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// the license.
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//-----------------------------------------------------------------------------
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// High frequency ISO14443B commands
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//-----------------------------------------------------------------------------
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#include <stdio.h>
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#include <stdlib.h>
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#include <stdbool.h>
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#include <string.h>
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#include <stdint.h>
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#include "iso14443crc.h"
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#include "proxmark3.h"
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#include "data.h"
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#include "graph.h"
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#include "util.h"
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#include "ui.h"
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#include "cmdparser.h"
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#include "cmdhf14b.h"
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#include "cmdmain.h"
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static int CmdHelp(const char *Cmd);
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int CmdHF14BDemod(const char *Cmd)
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{
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int i, j, iold;
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int isum, qsum;
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int outOfWeakAt;
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bool negateI, negateQ;
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uint8_t data[256];
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int dataLen = 0;
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// As received, the samples are pairs, correlations against I and Q
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// square waves. So estimate angle of initial carrier (or just
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// quadrant, actually), and then do the demod.
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// First, estimate where the tag starts modulating.
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for (i = 0; i < GraphTraceLen; i += 2) {
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if (abs(GraphBuffer[i]) + abs(GraphBuffer[i + 1]) > 40) {
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break;
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}
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}
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if (i >= GraphTraceLen) {
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PrintAndLog("too weak to sync");
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return 0;
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}
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PrintAndLog("out of weak at %d", i);
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outOfWeakAt = i;
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// Now, estimate the phase in the initial modulation of the tag
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isum = 0;
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qsum = 0;
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for (; i < (outOfWeakAt + 16); i += 2) {
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isum += GraphBuffer[i + 0];
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qsum += GraphBuffer[i + 1];
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}
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negateI = (isum < 0);
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negateQ = (qsum < 0);
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// Turn the correlation pairs into soft decisions on the bit.
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j = 0;
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for (i = 0; i < GraphTraceLen / 2; i++) {
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int si = GraphBuffer[j];
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int sq = GraphBuffer[j + 1];
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if (negateI) si = -si;
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if (negateQ) sq = -sq;
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GraphBuffer[i] = si + sq;
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j += 2;
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}
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GraphTraceLen = i;
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i = outOfWeakAt / 2;
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while (GraphBuffer[i] > 0 && i < GraphTraceLen)
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i++;
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if (i >= GraphTraceLen) goto demodError;
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iold = i;
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while (GraphBuffer[i] < 0 && i < GraphTraceLen)
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i++;
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if (i >= GraphTraceLen) goto demodError;
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if ((i - iold) > 23) goto demodError;
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PrintAndLog("make it to demod loop");
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for (;;) {
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iold = i;
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while (GraphBuffer[i] >= 0 && i < GraphTraceLen)
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i++;
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if (i >= GraphTraceLen) goto demodError;
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if ((i - iold) > 6) goto demodError;
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uint16_t shiftReg = 0;
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if (i + 20 >= GraphTraceLen) goto demodError;
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for (j = 0; j < 10; j++) {
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int soft = GraphBuffer[i] + GraphBuffer[i + 1];
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if (abs(soft) < (abs(isum) + abs(qsum)) / 20) {
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PrintAndLog("weak bit");
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}
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shiftReg >>= 1;
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if(GraphBuffer[i] + GraphBuffer[i+1] >= 0) {
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shiftReg |= 0x200;
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}
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i+= 2;
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}
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if ((shiftReg & 0x200) && !(shiftReg & 0x001))
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{
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// valid data byte, start and stop bits okay
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PrintAndLog(" %02x", (shiftReg >> 1) & 0xff);
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data[dataLen++] = (shiftReg >> 1) & 0xff;
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if (dataLen >= sizeof(data)) {
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return 0;
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}
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} else if (shiftReg == 0x000) {
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// this is EOF
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break;
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} else {
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goto demodError;
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}
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}
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uint8_t first, second;
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ComputeCrc14443(CRC_14443_B, data, dataLen-2, &first, &second);
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PrintAndLog("CRC: %02x %02x (%s)\n", first, second,
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(first == data[dataLen-2] && second == data[dataLen-1]) ?
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"ok" : "****FAIL****");
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RepaintGraphWindow();
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return 0;
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demodError:
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PrintAndLog("demod error");
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RepaintGraphWindow();
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return 0;
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}
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int CmdHF14BList(const char *Cmd)
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{
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PrintAndLog("Deprecated command, use 'hf list 14b' instead");
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return 0;
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}
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int CmdHF14BRead(const char *Cmd)
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{
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UsbCommand c = {CMD_ACQUIRE_RAW_ADC_SAMPLES_ISO_14443, {strtol(Cmd, NULL, 0), 0, 0}};
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SendCommand(&c);
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return 0;
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}
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int CmdHF14Sim(const char *Cmd)
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{
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UsbCommand c={CMD_SIMULATE_TAG_ISO_14443};
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SendCommand(&c);
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return 0;
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}
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int CmdHFSimlisten(const char *Cmd)
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{
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UsbCommand c = {CMD_SIMULATE_TAG_HF_LISTEN};
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SendCommand(&c);
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return 0;
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}
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int CmdHF14BSnoop(const char *Cmd)
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{
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UsbCommand c = {CMD_SNOOP_ISO_14443};
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SendCommand(&c);
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return 0;
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}
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/* New command to read the contents of a SRI512 tag
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* SRI512 tags are ISO14443-B modulated memory tags,
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* this command just dumps the contents of the memory
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*/
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int CmdSri512Read(const char *Cmd)
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{
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UsbCommand c = {CMD_READ_SRI512_TAG, {strtol(Cmd, NULL, 0), 0, 0}};
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SendCommand(&c);
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return 0;
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}
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/* New command to read the contents of a SRIX4K tag
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* SRIX4K tags are ISO14443-B modulated memory tags,
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* this command just dumps the contents of the memory/
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*/
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int CmdSrix4kRead(const char *Cmd)
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{
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UsbCommand c = {CMD_READ_SRIX4K_TAG, {strtol(Cmd, NULL, 0), 0, 0}};
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SendCommand(&c);
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return 0;
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}
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int CmdHF14BCmdRaw (const char *cmd) {
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UsbCommand resp;
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uint8_t *recv;
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UsbCommand c = {CMD_ISO_14443B_COMMAND, {0, 0, 0}}; // len,recv?
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uint8_t reply=1;
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uint8_t crc=0;
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uint8_t power=0;
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char buf[5]="";
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int i=0;
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uint8_t data[100] = {0x00};
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unsigned int datalen=0, temp;
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char *hexout;
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if (strlen(cmd)<3) {
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PrintAndLog("Usage: hf 14b raw [-r] [-c] [-p] <0A 0B 0C ... hex>");
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PrintAndLog(" -r do not read response");
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PrintAndLog(" -c calculate and append CRC");
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PrintAndLog(" -p leave the field on after receive");
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return 0;
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}
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// strip
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while (*cmd==' ' || *cmd=='\t') cmd++;
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while (cmd[i]!='\0') {
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if (cmd[i]==' ' || cmd[i]=='\t') { i++; continue; }
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if (cmd[i]=='-') {
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switch (cmd[i+1]) {
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case 'r':
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case 'R':
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reply=0;
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break;
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case 'c':
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case 'C':
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crc=1;
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break;
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case 'p':
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case 'P':
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power=1;
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break;
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default:
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PrintAndLog("Invalid option");
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return 0;
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}
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i+=2;
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continue;
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}
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if ((cmd[i]>='0' && cmd[i]<='9') ||
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(cmd[i]>='a' && cmd[i]<='f') ||
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(cmd[i]>='A' && cmd[i]<='F') ) {
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buf[strlen(buf)+1]=0;
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buf[strlen(buf)]=cmd[i];
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i++;
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if (strlen(buf)>=2) {
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sscanf(buf,"%x",&temp);
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data[datalen]=(uint8_t)(temp & 0xff);
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datalen++;
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*buf=0;
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}
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continue;
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}
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PrintAndLog("Invalid char on input");
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return 1;
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}
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if (datalen == 0)
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{
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PrintAndLog("Missing data input");
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return 0;
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}
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if(crc)
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{
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uint8_t first, second;
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ComputeCrc14443(CRC_14443_B, data, datalen, &first, &second);
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data[datalen++] = first;
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data[datalen++] = second;
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}
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c.arg[0] = datalen;
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c.arg[1] = reply;
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c.arg[2] = power;
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memcpy(c.d.asBytes,data,datalen);
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SendCommand(&c);
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if (reply) {
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if (WaitForResponseTimeout(CMD_ACK,&resp,1000)) {
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recv = resp.d.asBytes;
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PrintAndLog("received %i octets",resp.arg[0]);
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if(!resp.arg[0])
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return 0;
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hexout = (char *)malloc(resp.arg[0] * 3 + 1);
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if (hexout != NULL) {
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uint8_t first, second;
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for (int i = 0; i < resp.arg[0]; i++) { // data in hex
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sprintf(&hexout[i * 3], "%02X ", recv[i]);
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}
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PrintAndLog("%s", hexout);
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free(hexout);
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ComputeCrc14443(CRC_14443_B, recv, resp.arg[0]-2, &first, &second);
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if(recv[resp.arg[0]-2]==first && recv[resp.arg[0]-1]==second) {
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PrintAndLog("CRC OK");
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} else {
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PrintAndLog("CRC failed");
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}
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} else {
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PrintAndLog("malloc failed your client has low memory?");
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}
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} else {
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PrintAndLog("timeout while waiting for reply.");
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}
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} // if reply
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return 0;
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}
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int CmdHF14BWrite( const char *Cmd){
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/*
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* For SRIX4K blocks 00 - 7F
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* hf 14b raw -c -p 09 $srix4kwblock $srix4kwdata
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*
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* For SR512 blocks 00 - 0F
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* hf 14b raw -c -p 09 $sr512wblock $sr512wdata
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*
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* Special block FF = otp_lock_reg block.
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* Data len 4 bytes-
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*/
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char cmdp = param_getchar(Cmd, 0);
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uint8_t blockno = -1;
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uint8_t data[4] = {0x00};
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bool isSrix4k = true;
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char str[20];
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if (strlen(Cmd) < 1 || cmdp == 'h' || cmdp == 'H') {
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PrintAndLog("Usage: hf 14b write <1|2> <BLOCK> <DATA>");
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PrintAndLog(" [1 = SRIX4K]");
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PrintAndLog(" [2 = SRI512]");
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PrintAndLog(" [BLOCK number depends on tag, special block == FF]");
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PrintAndLog(" sample: hf 14b write 1 7F 11223344");
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PrintAndLog(" : hf 14b write 1 FF 11223344");
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PrintAndLog(" : hf 14b write 2 15 11223344");
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PrintAndLog(" : hf 14b write 2 FF 11223344");
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return 0;
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}
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if ( cmdp == '2' )
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isSrix4k = false;
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//blockno = param_get8(Cmd, 1);
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if ( param_gethex(Cmd,1, &blockno, 2) ) {
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PrintAndLog("Block number must include 2 HEX symbols");
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return 0;
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}
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if ( isSrix4k ){
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if ( blockno > 0x7f && blockno != 0xff ){
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PrintAndLog("Block number out of range");
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return 0;
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}
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} else {
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if ( blockno > 0x0f && blockno != 0xff ){
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PrintAndLog("Block number out of range");
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return 0;
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}
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}
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if (param_gethex(Cmd, 2, data, 8)) {
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PrintAndLog("Data must include 8 HEX symbols");
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return 0;
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}
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if ( blockno == 0xff)
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PrintAndLog("[%s] Write special block %02X [ %s ]", (isSrix4k)?"SRIX4K":"SRI512" , blockno, sprint_hex(data,4) );
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else
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PrintAndLog("[%s] Write block %02X [ %s ]", (isSrix4k)?"SRIX4K":"SRI512", blockno, sprint_hex(data,4) );
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sprintf(str, "-c 09 %02x %02x%02x%02x%02x", blockno, data[0], data[1], data[2], data[3]);
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CmdHF14BCmdRaw(str);
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return 0;
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}
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static command_t CommandTable[] =
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{
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{"help", CmdHelp, 1, "This help"},
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{"demod", CmdHF14BDemod, 1, "Demodulate ISO14443 Type B from tag"},
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{"list", CmdHF14BList, 0, "[Deprecated] List ISO 14443b history"},
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{"read", CmdHF14BRead, 0, "Read HF tag (ISO 14443)"},
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{"sim", CmdHF14Sim, 0, "Fake ISO 14443 tag"},
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{"simlisten", CmdHFSimlisten, 0, "Get HF samples as fake tag"},
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{"snoop", CmdHF14BSnoop, 0, "Eavesdrop ISO 14443"},
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{"sri512read", CmdSri512Read, 0, "Read contents of a SRI512 tag"},
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{"srix4kread", CmdSrix4kRead, 0, "Read contents of a SRIX4K tag"},
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{"raw", CmdHF14BCmdRaw, 0, "Send raw hex data to tag"},
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{"write", CmdHF14BWrite, 0, "Write data to a SRI512 | SRIX4K tag"},
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{NULL, NULL, 0, NULL}
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};
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int CmdHF14B(const char *Cmd)
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{
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CmdsParse(CommandTable, Cmd);
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return 0;
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}
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int CmdHelp(const char *Cmd)
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{
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CmdsHelp(CommandTable);
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return 0;
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}
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