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337 lines
12 KiB
C
337 lines
12 KiB
C
//-----------------------------------------------------------------------------
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// Copyright (C) Gerhard de Koning Gans - May 2008
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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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// Routines to support mifare classic sniffer.
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//-----------------------------------------------------------------------------
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#include "mifaresniff_disabled.h"
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#ifndef CheckCrc14A
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# define CheckCrc14A(data, len) check_crc(CRC_14443_A, (data), (len))
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#endif
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//static int sniffState = SNF_INIT;
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static uint8_t sniffUIDType = 0;
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static uint8_t sniffUID[10] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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static uint8_t sniffATQA[2] = {0, 0};
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static uint8_t sniffSAK = 0;
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static uint8_t sniffBuf[17];
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static uint32_t timerData = 0;
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//-----------------------------------------------------------------------------
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// MIFARE sniffer.
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//
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// if no activity for 2sec, it sends the collected data to the client.
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//-----------------------------------------------------------------------------
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// "hf mf sniff"
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void RAMFUNC SniffMifare(uint8_t param) {
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// param:
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// bit 0 - trigger from first card answer
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// bit 1 - trigger from first reader 7-bit request
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// C(red) A(yellow) B(green)
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LEDsoff();
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iso14443a_setup(FPGA_HF_ISO14443A_SNIFFER);
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// Allocate memory from BigBuf for some buffers
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// free all previous allocations first
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BigBuf_free();
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BigBuf_Clear_ext(false);
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clear_trace();
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set_tracing(true);
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// The command (reader -> tag) that we're receiving.
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uint8_t receivedCmd[MAX_MIFARE_FRAME_SIZE] = {0x00};
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uint8_t receivedCmdPar[MAX_MIFARE_PARITY_SIZE] = {0x00};
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// The response (tag -> reader) that we're receiving.
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uint8_t receivedResp[MAX_MIFARE_FRAME_SIZE] = {0x00};
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uint8_t receivedRespPar[MAX_MIFARE_PARITY_SIZE] = {0x00};
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// allocate the DMA buffer, used to stream samples from the FPGA
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uint8_t *dmaBuf = BigBuf_malloc(DMA_BUFFER_SIZE);
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uint8_t *data = dmaBuf;
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uint8_t previous_data = 0;
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int dataLen, maxDataLen = 0;
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bool ReaderIsActive = false;
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bool TagIsActive = false;
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// We won't start recording the frames that we acquire until we trigger;
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// a good trigger condition to get started is probably when we see a
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// response from the tag.
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// triggered == false -- to wait first for card
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//bool triggered = !(param & 0x03);
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// Set up the demodulator for tag -> reader responses.
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Demod14aInit(receivedResp, receivedRespPar);
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// Set up the demodulator for the reader -> tag commands
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Uart14aInit(receivedCmd, sizeof(receivedCmd), receivedCmdPar);
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// Setup and start DMA.
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// set transfer address and number of bytes. Start transfer.
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if (!FpgaSetupSscDma(dmaBuf, DMA_BUFFER_SIZE)) {
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if (g_dbglevel > 1) Dbprintf("[!] FpgaSetupSscDma failed. Exiting");
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return;
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}
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tUart14a *uart = GetUart14a();
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tDemod14a *demod = GetDemod14a();
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MfSniffInit();
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uint32_t sniffCounter = 0;
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// loop and listen
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while (BUTTON_PRESS() == false) {
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WDT_HIT();
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LED_A_ON();
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/*
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if ((sniffCounter & 0x0000FFFF) == 0) { // from time to time
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// check if a transaction is completed (timeout after 2000ms).
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// if yes, stop the DMA transfer and send what we have so far to the client
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if (BigBuf_get_traceLen()) {
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MfSniffSend();
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// Reset everything - we missed some sniffed data anyway while the DMA was stopped
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sniffCounter = 0;
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dmaBuf = BigBuf_malloc(DMA_BUFFER_SIZE);
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data = dmaBuf;
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maxDataLen = 0;
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ReaderIsActive = false;
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TagIsActive = false;
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FpgaSetupSscDma((uint8_t *)dmaBuf, DMA_BUFFER_SIZE); // set transfer address and number of bytes. Start transfer.
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}
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}
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*/
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// number of bytes we have processed so far
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int register readBufDataP = data - dmaBuf;
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// number of bytes already transferred
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int register dmaBufDataP = DMA_BUFFER_SIZE - AT91C_BASE_PDC_SSC->PDC_RCR;
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if (readBufDataP <= dmaBufDataP) // we are processing the same block of data which is currently being transferred
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dataLen = dmaBufDataP - readBufDataP; // number of bytes still to be processed
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else
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dataLen = DMA_BUFFER_SIZE - readBufDataP + dmaBufDataP; // number of bytes still to be processed
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// test for length of buffer
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if (dataLen > maxDataLen) { // we are more behind than ever...
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maxDataLen = dataLen;
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if (dataLen > (9 * DMA_BUFFER_SIZE / 10)) {
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Dbprintf("[!] blew circular buffer! | datalen %u", dataLen);
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break;
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}
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}
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if (dataLen < 1) continue;
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// primary buffer was stopped ( <-- we lost data!
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if (!AT91C_BASE_PDC_SSC->PDC_RCR) {
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AT91C_BASE_PDC_SSC->PDC_RPR = (uint32_t)dmaBuf;
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AT91C_BASE_PDC_SSC->PDC_RCR = DMA_BUFFER_SIZE;
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Dbprintf("[-] RxEmpty ERROR | data length %d", dataLen); // temporary
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}
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// secondary buffer sets as primary, secondary buffer was stopped
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if (!AT91C_BASE_PDC_SSC->PDC_RNCR) {
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AT91C_BASE_PDC_SSC->PDC_RNPR = (uint32_t)dmaBuf;
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AT91C_BASE_PDC_SSC->PDC_RNCR = DMA_BUFFER_SIZE;
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}
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LED_A_OFF();
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// Need two samples to feed Miller and Manchester-Decoder
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if (sniffCounter & 0x01) {
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// no need to try decoding tag data if the reader is sending
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if (!TagIsActive) {
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uint8_t readerbyte = (previous_data & 0xF0) | (*data >> 4);
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if (MillerDecoding(readerbyte, (sniffCounter - 1) * 4)) {
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LogTrace(receivedCmd, uart->len, 0, 0, NULL, true);
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Demod14aReset();
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Uart14aReset();
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}
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ReaderIsActive = (uart->state != STATE_14A_UNSYNCD);
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}
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// no need to try decoding tag data if the reader is sending
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if (!ReaderIsActive) {
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uint8_t tagbyte = (previous_data << 4) | (*data & 0x0F);
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if (ManchesterDecoding(tagbyte, 0, (sniffCounter - 1) * 4)) {
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LogTrace(receivedResp, demod->len, 0, 0, NULL, false);
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Demod14aReset();
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Uart14aReset();
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}
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TagIsActive = (demod->state != DEMOD_14A_UNSYNCD);
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}
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}
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previous_data = *data;
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sniffCounter++;
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data++;
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if (data == dmaBuf + DMA_BUFFER_SIZE)
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data = dmaBuf;
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} // main cycle
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MfSniffEnd();
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switch_off();
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}
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void MfSniffInit(void) {
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memset(sniffUID, 0x00, sizeof(sniffUID));
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memset(sniffATQA, 0x00, sizeof(sniffATQA));
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memset(sniffBuf, 0x00, sizeof(sniffBuf));
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sniffSAK = 0;
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sniffUIDType = SNF_UID_4;
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timerData = 0;
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}
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void MfSniffEnd(void) {
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LED_B_ON();
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reply_old(CMD_ACK, 0, 0, 0, 0, 0);
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LED_B_OFF();
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}
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/*
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bool RAMFUNC MfSniffLogic(const uint8_t *data, uint16_t len, uint8_t *parity, uint16_t bitCnt, bool reader) {
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// reset on 7-Bit commands from reader
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if (reader && (len == 1) && (bitCnt == 7)) {
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sniffState = SNF_INIT;
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}
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switch (sniffState) {
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case SNF_INIT:{
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// REQA,WUPA or MAGICWUP from reader
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if ((len == 1) && (reader) && (bitCnt == 7) ) {
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MfSniffInit();
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sniffState = (data[0] == MIFARE_MAGICWUPC1) ? SNF_MAGIC_WUPC2 : SNF_ATQA;
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}
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break;
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}
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case SNF_MAGIC_WUPC2: {
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if ((len == 1) && (reader) && (data[0] == MIFARE_MAGICWUPC2) ) {
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sniffState = SNF_CARD_IDLE;
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}
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break;
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}
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case SNF_ATQA:{
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// ATQA from tag
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if ((!reader) && (len == 2)) {
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sniffATQA[0] = data[0];
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sniffATQA[1] = data[1];
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sniffState = SNF_UID;
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}
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break;
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}
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case SNF_UID: {
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if ( !reader ) break;
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if ( len != 9 ) break;
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if ( !CheckCrc14A(data, 9)) break;
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if ( data[1] != 0x70 ) break;
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Dbprintf("[!] UID | %x", data[0]);
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if ((data[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT)) {
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// UID_4 - select 4 Byte UID from reader
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memcpy(sniffUID, data+2, 4);
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sniffUIDType = SNF_UID_4;
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sniffState = SNF_SAK;
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} else if ((data[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_2)) {
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// UID_7 - Select 2nd part of 7 Byte UID
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// get rid of 0x88
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sniffUID[0] = sniffUID[1];
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sniffUID[1] = sniffUID[2];
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sniffUID[2] = sniffUID[3];
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//new uid bytes
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memcpy(sniffUID+3, data+2, 4);
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sniffUIDType = SNF_UID_7;
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sniffState = SNF_SAK;
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} else if ((data[0] == ISO14443A_CMD_ANTICOLL_OR_SELECT_3)) {
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// UID_10 - Select 3nd part of 10 Byte UID
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// 3+3+4 = 10.
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// get ride of previous 0x88
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sniffUID[3] = sniffUID[4];
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sniffUID[4] = sniffUID[5];
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sniffUID[5] = sniffUID[6];
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// new uid bytes
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memcpy(sniffUID+6, data+2, 4);
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sniffUIDType = SNF_UID_10;
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sniffState = SNF_SAK;
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}
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break;
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}
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case SNF_SAK:{
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// SAK from card?
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if ((!reader) && (len == 3) && (CheckCrc14A(data, 3))) {
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sniffSAK = data[0];
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// CL2 UID part to be expected
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if (( sniffSAK == 0x04) && (sniffUIDType == SNF_UID_4)) {
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sniffState = SNF_UID;
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// CL3 UID part to be expected
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} else if ((sniffSAK == 0x04) && (sniffUIDType == SNF_UID_7)) {
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sniffState = SNF_UID;
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} else {
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// select completed
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sniffState = SNF_CARD_IDLE;
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}
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}
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break;
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}
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case SNF_CARD_IDLE:{ // trace the card select sequence
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sniffBuf[0] = 0xFF;
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sniffBuf[1] = 0xFF;
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memcpy(sniffBuf + 2, sniffUID, sizeof(sniffUID));
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memcpy(sniffBuf + 12, sniffATQA, sizeof(sniffATQA));
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sniffBuf[14] = sniffSAK;
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sniffBuf[15] = 0xFF;
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sniffBuf[16] = 0xFF;
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LogTrace(sniffBuf, sizeof(sniffBuf), 0, 0, NULL, true);
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sniffState = SNF_CARD_CMD;
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} // intentionally no break;
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case SNF_CARD_CMD:{
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LogTrace(data, len, 0, 0, NULL, reader);
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timerData = GetTickCount();
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break;
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}
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default:
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sniffState = SNF_INIT;
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break;
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}
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return false;
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}
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*/
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void RAMFUNC MfSniffSend(void) {
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uint16_t tracelen = BigBuf_get_traceLen();
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int packlen = tracelen; // total number of bytes to send
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uint8_t *data = BigBuf_get_addr();
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while (packlen > 0) {
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LED_B_ON();
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uint16_t chunksize = MIN(PM3_CMD_DATA_SIZE, packlen); // chunk size 512
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reply_old(CMD_ACK, 1, tracelen, chunksize, data + tracelen - packlen, chunksize);
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packlen -= chunksize;
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LED_B_OFF();
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}
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LED_B_ON();
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reply_old(CMD_ACK, 2, 0, 0, 0, 0); // 2 == data transfer finished.
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LED_B_OFF();
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}
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