mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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367 lines
12 KiB
C
367 lines
12 KiB
C
//-----------------------------------------------------------------------------
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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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// Low frequency Farpoint G Prox II / Pyramid tag commands
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// Biphase, rf/ , 96 bits (unknown key calc + some bits)
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//-----------------------------------------------------------------------------
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#include "cmdlfguard.h"
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static int CmdHelp(const char *Cmd);
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int usage_lf_guard_clone(void){
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PrintAndLogEx(NORMAL, "clone a Guardall tag to a T55x7 tag.");
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PrintAndLogEx(NORMAL, "The facility-code is 8-bit and the card number is 16-bit. Larger values are truncated. ");
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PrintAndLogEx(NORMAL, "Currently work only on 26bit");
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PrintAndLogEx(NORMAL, "");
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PrintAndLogEx(NORMAL, "Usage: lf gprox clone [h] <format> <Facility-Code> <Card-Number>");
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PrintAndLogEx(NORMAL, "Options:");
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PrintAndLogEx(NORMAL, " <format> : format length 26|32|36|40");
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PrintAndLogEx(NORMAL, " <Facility-Code> : 8-bit value facility code");
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PrintAndLogEx(NORMAL, " <Card Number> : 16-bit value card number");
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PrintAndLogEx(NORMAL, "");
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PrintAndLogEx(NORMAL, "Examples:");
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PrintAndLogEx(NORMAL, " lf gprox clone 26 123 11223");
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return 0;
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}
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int usage_lf_guard_sim(void) {
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PrintAndLogEx(NORMAL, "Enables simulation of Guardall card with specified card number.");
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PrintAndLogEx(NORMAL, "Simulation runs until the button is pressed or another USB command is issued.");
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PrintAndLogEx(NORMAL, "The facility-code is 8-bit and the card number is 16-bit. Larger values are truncated.");
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PrintAndLogEx(NORMAL, "Currently work only on 26bit");
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PrintAndLogEx(NORMAL, "");
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PrintAndLogEx(NORMAL, "Usage: lf gprox sim [h] <format> <Facility-Code> <Card-Number>");
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PrintAndLogEx(NORMAL, "Options:");
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PrintAndLogEx(NORMAL, " <format> : format length 26|32|36|40");
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PrintAndLogEx(NORMAL, " <Facility-Code> : 8-bit value facility code");
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PrintAndLogEx(NORMAL, " <Card Number> : 16-bit value card number");
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PrintAndLogEx(NORMAL, "");
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PrintAndLogEx(NORMAL, "Examples:");
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PrintAndLogEx(NORMAL, " lf gprox sim 26 123 11223");
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return 0;
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}
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// Works for 26bits.
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int GetGuardBits(uint8_t fmtlen, uint32_t fc, uint32_t cn, uint8_t *guardBits) {
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uint8_t xorKey = 0x66;
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uint8_t i;
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uint8_t pre[96];
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uint8_t rawbytes[12];
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memset(pre, 0x00, sizeof(pre));
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memset(rawbytes, 0x00, sizeof(rawbytes));
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// add format length (decimal)
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switch (fmtlen) {
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case 32: {
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rawbytes[1] = (32 << 2);
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break;
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}
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case 36: {
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// FC = ((ByteStream[3] & 0x7F)<<7) | (ByteStream[4]>>1);
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// Card = ((ByteStream[4]&1)<<19) | (ByteStream[5]<<11) | (ByteStream[6]<<3) | (ByteStream[7]>>5);
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rawbytes[1] = (36 << 2);
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// Get 26 wiegand from FacilityCode, CardNumber
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uint8_t wiegand[34];
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memset(wiegand, 0x00, sizeof(wiegand));
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num_to_bytebits(fc, 8, wiegand);
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num_to_bytebits(cn, 26, wiegand+8);
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// add wiegand parity bits (dest, source, len)
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wiegand_add_parity(pre, wiegand, 34);
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break;
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}
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case 40: {
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rawbytes[1] = (40 << 2);
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break;
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}
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case 26:
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default: {
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rawbytes[1] = (26 << 2);
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// Get 26 wiegand from FacilityCode, CardNumber
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uint8_t wiegand[24];
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memset(wiegand, 0x00, sizeof(wiegand));
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num_to_bytebits(fc, 8, wiegand);
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num_to_bytebits(cn, 16, wiegand+8);
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// add wiegand parity bits (dest, source, len)
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wiegand_add_parity(pre, wiegand, 24);
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break;
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}
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}
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// 2bit checksum, unknown today,
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// these two bits are the last ones of rawbyte[1], hence the LSHIFT above.
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// xor key
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rawbytes[0] = xorKey;
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rawbytes[2] = 1;
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rawbytes[3] = 0;
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// add wiegand to rawbytes
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for (i = 0; i < 4; ++i)
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rawbytes[i+4] = bytebits_to_byte( pre + (i*8), 8);
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if (g_debugMode) PrintAndLogEx(NORMAL, " WIE | %s\n", sprint_hex(rawbytes, sizeof(rawbytes)));
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// XOR (only works on wiegand stuff)
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for (i = 1; i < 12; ++i)
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rawbytes[i] ^= xorKey ;
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if (g_debugMode) PrintAndLogEx(NORMAL, " XOR | %s \n", sprint_hex(rawbytes, sizeof(rawbytes)));
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// convert rawbytes to bits in pre
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for (i = 0; i < 12; ++i)
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num_to_bytebitsLSBF( rawbytes[i], 8, pre + (i*8));
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if (g_debugMode) PrintAndLogEx(NORMAL, "\n Raw | %s \n", sprint_hex(rawbytes, sizeof(rawbytes)));
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if (g_debugMode) PrintAndLogEx(NORMAL, " Raw | %s\n", sprint_bin(pre, 64) );
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// add spacer bit 0 every 4 bits, starting with index 0,
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// 12 bytes, 24 nibbles. 24+1 extra bites. 3bytes. ie 9bytes | 1byte xorkey, 8bytes rawdata (64bits, should be enough for a 40bit wiegand)
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addParity(pre, guardBits+6, 64, 5, 3);
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// preamble
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guardBits[0] = 1;
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guardBits[1] = 1;
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guardBits[2] = 1;
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guardBits[3] = 1;
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guardBits[4] = 1;
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guardBits[5] = 0;
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if (g_debugMode) PrintAndLogEx(NORMAL, " FIN | %s\n", sprint_bin(guardBits, 96) );
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return 1;
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}
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// by marshmellow
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// demod gProxIIDemod
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// error returns as -x
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// success returns start position in bitstream
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// Bitstream must contain previously askrawdemod and biphasedemoded data
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int detectGProxII(uint8_t *bits, size_t *size) {
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size_t startIdx = 0;
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uint8_t preamble[] = {1,1,1,1,1,0};
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// sanity check
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if ( *size < sizeof(preamble) ) return -1;
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if (!preambleSearch(bits, preamble, sizeof(preamble), size, &startIdx))
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return -2; //preamble not found
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//gProxII should be 96 bits
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if (*size != 96) return -3;
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//check first 6 spacer bits to verify format
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if (!bits[startIdx+5] && !bits[startIdx+10] && !bits[startIdx+15] && !bits[startIdx+20] && !bits[startIdx+25] && !bits[startIdx+30]){
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//confirmed proper separator bits found
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//return start position
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return (int) startIdx;
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}
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return -5; //spacer bits not found - not a valid gproxII
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}
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//by marshmellow
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//attempts to demodulate and identify a G_Prox_II verex/chubb card
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//WARNING: if it fails during some points it will destroy the DemodBuffer data
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// but will leave the GraphBuffer intact.
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//if successful it will push askraw data back to demod buffer ready for emulation
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int CmdGuardDemod(const char *Cmd) {
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//Differential Biphase
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//get binary from ask wave
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if (!ASKbiphaseDemod("0 64 0 0", false)) {
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII ASKbiphaseDemod failed");
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return 0;
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}
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size_t size = DemodBufferLen;
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int preambleIndex = detectGProxII(DemodBuffer, &size);
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if (preambleIndex < 0){
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if (preambleIndex == -1)
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII too few bits found");
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else if (preambleIndex == -2)
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII preamble not found");
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else if (preambleIndex == -3)
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII size not correct: %d", size);
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else if (preambleIndex == -3)
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII wrong spacerbits");
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else
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII ans: %d", preambleIndex);
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return 0;
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}
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//got a good demod of 96 bits
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uint8_t ByteStream[8] = {0x00};
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uint8_t xorKey = 0;
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size_t startIdx = preambleIndex + 6; //start after 6 bit preamble
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uint8_t bits_no_spacer[90];
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//so as to not mess with raw DemodBuffer copy to a new sample array
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memcpy(bits_no_spacer, DemodBuffer + startIdx, 90);
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// remove the 18 (90/5=18) parity bits (down to 72 bits (96-6-18=72))
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size_t len = removeParity(bits_no_spacer, 0, 5, 3, 90); //source, startloc, paritylen, ptype, length_to_run
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if (len != 72) {
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PrintAndLogEx(DEBUG, "DEBUG: Error - gProxII spacer removal did not produce 72 bits: %u, start: %u", len, startIdx);
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return 0;
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}
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// get key and then get all 8 bytes of payload decoded
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xorKey = (uint8_t)bytebits_to_byteLSBF(bits_no_spacer, 8);
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for (size_t idx = 0; idx < 8; idx++) {
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ByteStream[idx] = ((uint8_t)bytebits_to_byteLSBF(bits_no_spacer+8 + (idx*8),8)) ^ xorKey;
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PrintAndLogEx(DEBUG, "DEBUG: gProxII byte %u after xor: %02x", (unsigned int)idx, ByteStream[idx]);
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}
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setDemodBuf(DemodBuffer, 96, preambleIndex);
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setClockGrid(g_DemodClock, g_DemodStartIdx + (preambleIndex*g_DemodClock));
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//ByteStream contains 8 Bytes (64 bits) of decrypted raw tag data
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uint8_t fmtLen = ByteStream[0] >> 2;
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uint32_t FC = 0;
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uint32_t Card = 0;
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//get raw 96 bits to print
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uint32_t raw1 = bytebits_to_byte(DemodBuffer,32);
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uint32_t raw2 = bytebits_to_byte(DemodBuffer + 32, 32);
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uint32_t raw3 = bytebits_to_byte(DemodBuffer + 64, 32);
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bool unknown = false;
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switch(fmtLen) {
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case 36:
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FC = ((ByteStream[3] & 0x7F)<<7) | (ByteStream[4]>>1);
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Card = ((ByteStream[4]&1)<<19) | (ByteStream[5]<<11) | (ByteStream[6]<<3) | (ByteStream[7]>>5);
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break;
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case 26:
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FC = ((ByteStream[3] & 0x7F)<<1) | (ByteStream[4]>>7);
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Card = ((ByteStream[4]&0x7F)<<9) | (ByteStream[5]<<1) | (ByteStream[6]>>7);
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break;
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default :
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unknown = true;
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break;
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}
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if ( !unknown)
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PrintAndLogEx(NORMAL, "G-Prox-II Found: Format Len: %ubit - FC: %u - Card: %u, Raw: %08x%08x%08x", fmtLen, FC, Card, raw1, raw2, raw3);
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else
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PrintAndLogEx(NORMAL, "Unknown G-Prox-II Fmt Found: Format Len: %u, Raw: %08x%08x%08x", fmtLen, raw1, raw2, raw3);
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return 1;
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}
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int CmdGuardRead(const char *Cmd) {
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lf_read(true, 10000);
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return CmdGuardDemod(Cmd);
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}
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int CmdGuardClone(const char *Cmd) {
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char cmdp = param_getchar(Cmd, 0);
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if (strlen(Cmd) == 0 || cmdp == 'h' || cmdp == 'H') return usage_lf_guard_clone();
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uint32_t facilitycode = 0, cardnumber = 0, fc = 0, cn = 0, fmtlen = 0;
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uint8_t i;
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uint8_t bs[96];
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memset(bs, 0x00, sizeof(bs));
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//GuardProxII - compat mode, ASK/Biphase, data rate 64, 3 data blocks
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uint32_t blocks[4] = {T55x7_MODULATION_BIPHASE | T55x7_BITRATE_RF_64 | 3 << T55x7_MAXBLOCK_SHIFT, 0, 0, 0};
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if (sscanf(Cmd, "%u %u %u", &fmtlen, &fc, &cn ) != 3) return usage_lf_guard_clone();
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fmtlen &= 0x7f;
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facilitycode = (fc & 0x000000FF);
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cardnumber = (cn & 0x0000FFFF);
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if ( !GetGuardBits(fmtlen, facilitycode, cardnumber, bs)) {
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PrintAndLogEx(WARNING, "Error with tag bitstream generation.");
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return 1;
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}
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// Q5
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if (param_getchar(Cmd, 3) == 'Q' || param_getchar(Cmd, 3) == 'q')
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blocks[0] = T5555_MODULATION_FSK2 | T5555_SET_BITRATE(50) | 3 << T5555_MAXBLOCK_SHIFT;
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blocks[1] = bytebits_to_byte(bs, 32);
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blocks[2] = bytebits_to_byte(bs + 32, 32);
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blocks[3] = bytebits_to_byte(bs + 64, 32);
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PrintAndLogEx(NORMAL, "Preparing to clone Guardall to T55x7 with Facility Code: %u, Card Number: %u", facilitycode, cardnumber);
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print_blocks(blocks, 4);
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UsbCommand resp;
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UsbCommand c = {CMD_T55XX_WRITE_BLOCK, {0,0,0}};
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for ( i = 0; i<4; ++i ) {
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c.arg[0] = blocks[i];
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c.arg[1] = i;
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clearCommandBuffer();
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SendCommand(&c);
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if (!WaitForResponseTimeout(CMD_ACK, &resp, T55XX_WRITE_TIMEOUT)){
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PrintAndLogEx(WARNING, "Error occurred, device did not respond during write operation.");
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return -1;
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}
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}
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return 0;
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}
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int CmdGuardSim(const char *Cmd) {
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// Guard uses: clk: 64, invert: 0, encoding: 2 (ASK Biphase)
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uint8_t clock = 64, encoding = 2, separator = 0, invert = 0;
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uint32_t facilitycode = 0, cardnumber = 0, fc = 0, cn = 0, fmtlen = 0;
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char cmdp = param_getchar(Cmd, 0);
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if (strlen(Cmd) == 0 || cmdp == 'h' || cmdp == 'H') return usage_lf_guard_sim();
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if (sscanf(Cmd, "%u %u %u", &fmtlen, &fc, &cn ) != 3) return usage_lf_guard_sim();
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uint8_t bs[96];
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size_t size = sizeof(bs);
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memset(bs, 0x00, size);
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fmtlen &= 0x7F;
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facilitycode = (fc & 0x000000FF);
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cardnumber = (cn & 0x0000FFFF);
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if ( !GetGuardBits(fmtlen, facilitycode, cardnumber, bs)) {
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PrintAndLogEx(WARNING, "Error with tag bitstream generation.");
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return 1;
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}
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PrintAndLogEx(NORMAL, "Simulating Guardall - Facility Code: %u, CardNumber: %u", facilitycode, cardnumber );
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uint64_t arg1, arg2;
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arg1 = (clock << 8) | encoding;
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arg2 = (invert << 8) | separator;
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UsbCommand c = {CMD_ASK_SIM_TAG, {arg1, arg2, size}};
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memcpy(c.d.asBytes, bs, size );
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clearCommandBuffer();
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SendCommand(&c);
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return 0;
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}
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static command_t CommandTable[] = {
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{"help", CmdHelp, 1, "this help"},
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{"demod", CmdGuardDemod, 1, "demodulate a G Prox II tag from the GraphBuffer"},
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{"read", CmdGuardRead, 0, "attempt to read and extract tag data from the antenna"},
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{"clone", CmdGuardClone, 0, "clone Guardall tag"},
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{"sim", CmdGuardSim, 0, "simulate Guardall tag"},
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{NULL, NULL, 0, NULL}
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};
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int CmdLFGuard(const char *Cmd) {
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clearCommandBuffer();
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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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CmdsHelp(CommandTable);
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return 0;
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}
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