//----------------------------------------------------------------------------- // Copyright (C) 2018 grauerfuchs // // This code is licensed to you under the terms of the GNU GPL, version 2 or, // at your option, any later version. See the LICENSE.txt file for the text of // the license. //----------------------------------------------------------------------------- // HID card format packing/unpacking routines //----------------------------------------------------------------------------- #include #include #include #include "cmddata.h" #include "hidcardformats.h" #include "hidcardformatutils.h" #include "parity.h" // for parity #include "ui.h" bool Pack_H10301(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 26; // Set number of bits packed->bot |= (card->CardNumber & 0xFFFF) << 1; packed->bot |= (card->FacilityCode & 0xFF) << 17; if (card->ParitySupported){ packed->bot |= oddparity32((packed->bot >> 1) & 0xFFF) & 1; packed->bot |= (evenparity32((packed->bot >> 13) & 0xFFF) & 1) << 25; } return add_HID_header(packed); } bool Unpack_H10301(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 26) return false; // Wrong length? Stop here. card->CardNumber = (packed->bot >> 1) & 0xFFFF; card->FacilityCode = (packed->bot >> 17) & 0xFF; card->ParitySupported = true; card->ParityValid = (oddparity32((packed->bot >> 1) & 0xFFF) == (packed->bot & 1)) && ((evenparity32((packed->bot >> 13) & 0xFFF) & 1) == ((packed->bot >> 25) & 1)); return true; } bool Pack_Tecom27(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x7FF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 27; set_nonlinear_field(packed, card->FacilityCode, 10, (uint8_t[]){15, 19, 24, 23, 22, 18, 6, 10, 14, 3, 2}); set_nonlinear_field(packed, card->CardNumber, 16, (uint8_t[]){0, 1, 13, 12, 9, 26, 20, 16, 17, 21, 25, 7, 8, 11, 4, 5}); return add_HID_header(packed); } bool Unpack_Tecom27(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 27) return false; // Wrong length? Stop here. card->CardNumber = get_nonlinear_field(packed, 16, (uint8_t[]){0, 1, 13, 12, 9, 26, 20, 16, 17, 21, 25, 7, 8, 11, 4, 5}); card->FacilityCode = get_nonlinear_field(packed, 10, (uint8_t[]){15, 19, 24, 23, 22, 18, 6, 10, 14, 3, 2}); card->ParitySupported = false; return true; } bool Pack_2804W(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x0FF) return false; // Can't encode FC. if (card->CardNumber > 0x7FFF) return false; // Can't encode CN. packed->Length = 28; set_linear_field(packed, card->FacilityCode, 4, 8); set_linear_field(packed, card->CardNumber, 12, 15); if (card->ParitySupported){ set_bit_by_position(packed, oddparity32(get_nonlinear_field(packed, 16, (uint8_t[]){4, 5, 7, 8, 10, 11, 13, 14, 16, 17, 19, 20, 22, 23, 25, 26})) , 2); set_bit_by_position(packed, evenparity32(get_linear_field(packed, 1, 13)) , 0); set_bit_by_position(packed, oddparity32(get_linear_field(packed, 0, 27)) , 27); } return add_HID_header(packed); } bool Unpack_2804W(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 28) return false; // Wrong length? Stop here. card->FacilityCode = get_linear_field(packed, 4, 8); card->CardNumber = get_linear_field(packed, 12, 15); card->ParitySupported = true; card->ParityValid = (get_bit_by_position(packed, 0) == evenparity32(get_linear_field(packed, 1, 13))) && (get_bit_by_position(packed, 2) == oddparity32(get_nonlinear_field(packed, 16, (uint8_t[]){4, 5, 7, 8, 10, 11, 13, 14, 16, 17, 19, 20, 22, 23, 25, 26}))) && (get_bit_by_position(packed, 27) == oddparity32(get_linear_field(packed, 0, 27))); return true; } bool Pack_ATSW30(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 30; set_linear_field(packed, card->FacilityCode, 1, 12); set_linear_field(packed, card->CardNumber, 13, 16); if (card->ParitySupported){ set_bit_by_position(packed, evenparity32(get_linear_field(packed, 1, 12)) , 0); set_bit_by_position(packed, oddparity32(get_linear_field(packed, 13, 16)) , 29); } return add_HID_header(packed); } bool Unpack_ATSW30(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 30) return false; // Wrong length? Stop here. card->FacilityCode = get_linear_field(packed, 1, 12); card->CardNumber = get_linear_field(packed, 13, 16); card->ParitySupported = true; card->ParityValid = (get_bit_by_position(packed, 0) == evenparity32(get_linear_field(packed, 1, 12))) && (get_bit_by_position(packed, 29) == oddparity32(get_linear_field(packed, 13, 16))); return true; } bool Pack_ADT31(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x0F) return false; // Can't encode FC. if (card->CardNumber > 0x7FFFFF) return false; // Can't encode CN. packed->Length = 31; set_linear_field(packed, card->FacilityCode, 1, 4); set_linear_field(packed, card->CardNumber, 5, 23); // Parity not known, but 4 bits are unused. return add_HID_header(packed); } bool Unpack_ADT31(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 31) return false; // Wrong length? Stop here. card->FacilityCode = get_linear_field(packed, 1, 4); card->CardNumber = get_linear_field(packed, 5, 23); card->ParitySupported = false; return true; } bool Pack_D10202(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x007F) return false; // Can't encode FC. if (card->CardNumber > 0x00FFFFFF) return false; // Can't encode CN. packed->Length = 33; // Set number of bits set_linear_field(packed, card->FacilityCode, 1, 7); set_linear_field(packed, card->CardNumber, 8, 24); if (card->ParitySupported){ set_bit_by_position(packed, evenparity32(get_linear_field(packed, 1, 16)), 0); set_bit_by_position(packed, oddparity32(get_linear_field(packed, 16, 16)), 32); } return add_HID_header(packed); } bool Unpack_D10202(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 33) return false; // Wrong length? Stop here. card->CardNumber = get_linear_field(packed, 8, 24); card->FacilityCode = get_linear_field(packed, 1, 7); card->ParitySupported = true; card->ParityValid = (get_bit_by_position(packed, 0) == evenparity32(get_linear_field(packed, 1, 16))) && (get_bit_by_position(packed, 32) == oddparity32(get_linear_field(packed, 16, 16))); return true; } bool Pack_H10306(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFFFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 34; // Set number of bits packed->bot |= (card->CardNumber & 0xFFFF) << 1; packed->bot |= (card->FacilityCode & 0x7FFF) << 17; packed->mid |= (card->FacilityCode & 0x8000) >> 15; if (card->ParitySupported){ packed->mid |= (evenparity32((packed->mid & 0x00000001) ^ (packed->bot & 0xFFFE0000)) & 1) << 1; packed->bot |= ( oddparity32(packed->bot & 0x0001FFFE) & 1); } return add_HID_header(packed); } bool Unpack_H10306(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 34) return false; // Wrong length? Stop here. card->CardNumber = (packed->bot >> 1) & 0xFFFF; card->FacilityCode = ((packed->mid & 1) << 15) | ((packed->bot >> 17) & 0xFF); card->ParitySupported = true; card->ParityValid = ((evenparity32((packed->mid & 0x00000001) ^ (packed->bot & 0xFFFE0000)) & 1) == ((packed->mid >> 1) & 1)) && ((oddparity32(packed->bot & 0x0001FFFE) & 1) == ((packed->bot & 1))); return true; } bool Pack_N1002(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 34; // Set number of bits set_linear_field(packed, card->FacilityCode, 9, 8); set_linear_field(packed, card->CardNumber, 17, 16); return add_HID_header(packed); } bool Unpack_N1002(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 34) return false; // Wrong length? Stop here. card->CardNumber = get_linear_field(packed, 17, 16); card->FacilityCode = get_linear_field(packed, 9, 8); card->ParitySupported = false; return true; } bool Pack_C1k35s(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFFF) return false; // Can't encode CN. packed->Length = 35; // Set number of bits packed->bot |= (card->CardNumber & 0x000FFFFF) << 1; packed->bot |= (card->FacilityCode & 0x000007FF) << 21; packed->mid |= (card->FacilityCode & 0x00000800) >> 11; if (card->ParitySupported){ packed->mid |= (evenparity32((packed->mid & 0x00000001) ^ (packed->bot & 0xB6DB6DB6)) & 1) << 1; packed->bot |= ( oddparity32((packed->mid & 0x00000003) ^ (packed->bot & 0x6DB6DB6C)) & 1); packed->mid |= ( oddparity32((packed->mid & 0x00000003) ^ (packed->bot & 0xFFFFFFFF)) & 1) << 2; } return add_HID_header(packed); } bool Unpack_C1k35s(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 35) return false; // Wrong length? Stop here. card->CardNumber = (packed->bot >> 1) & 0x000FFFFF; card->FacilityCode = ((packed->mid & 1) << 11) | ((packed->bot >> 21)); card->ParitySupported = true; card->ParityValid = (evenparity32((packed->mid & 0x00000001) ^ (packed->bot & 0xB6DB6DB6)) == ((packed->mid >> 1) & 1)) && ( oddparity32((packed->mid & 0x00000003) ^ (packed->bot & 0x6DB6DB6C)) == ((packed->bot >> 0) & 1)) && ( oddparity32((packed->mid & 0x00000003) ^ (packed->bot & 0xFFFFFFFF)) == ((packed->mid >> 2) & 1)); return true; } bool Pack_H10320(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0) return false; // Can't encode FC. (none in this format) if (card->CardNumber > 99999999) return false; // Can't encode CN. packed->Length = 36; // Set number of bits // This card is BCD-encoded rather than binary. Set the 4-bit groups independently. set_linear_field(packed, (card->CardNumber / 10000000) % 10, 0, 4); set_linear_field(packed, (card->CardNumber / 1000000) % 10, 4, 4); set_linear_field(packed, (card->CardNumber / 100000) % 10, 8, 4); set_linear_field(packed, (card->CardNumber / 10000) % 10, 12, 4); set_linear_field(packed, (card->CardNumber / 1000) % 10, 16, 4); set_linear_field(packed, (card->CardNumber / 100) % 10, 20, 4); set_linear_field(packed, (card->CardNumber / 10) % 10, 24, 4); set_linear_field(packed, (card->CardNumber / 1) % 10, 28, 4); if (card->ParitySupported){ set_bit_by_position(packed, evenparity32( get_nonlinear_field(packed, 8, (uint8_t[]){0, 4, 8, 12, 16, 20, 24, 28}) ), 32); set_bit_by_position(packed, oddparity32( get_nonlinear_field(packed, 8, (uint8_t[]){1, 5, 9, 13, 17, 21, 25, 29}) ), 33); set_bit_by_position(packed, evenparity32( get_nonlinear_field(packed, 8, (uint8_t[]){2, 6, 10, 14, 18, 22, 28, 30}) ), 34); set_bit_by_position(packed, evenparity32( get_nonlinear_field(packed, 8, (uint8_t[]){3, 7, 11, 15, 19, 23, 29, 31}) ), 35); } return add_HID_header(packed); } bool Unpack_H10320(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 36) return false; // Wrong length? Stop here. // This card is BCD-encoded rather than binary. Get the 4-bit groups independently. card->CardNumber += get_linear_field(packed, 0, 4) * 10000000; card->CardNumber += get_linear_field(packed, 4, 4) * 1000000; card->CardNumber += get_linear_field(packed, 8, 4) * 100000; card->CardNumber += get_linear_field(packed, 12, 4) * 10000; card->CardNumber += get_linear_field(packed, 16, 4) * 1000; card->CardNumber += get_linear_field(packed, 20, 4) * 100; card->CardNumber += get_linear_field(packed, 24, 4) * 10; card->CardNumber += get_linear_field(packed, 28, 4); card->ParitySupported = true; card->ParityValid = (get_bit_by_position(packed, 32) == evenparity32(get_nonlinear_field(packed, 8, (uint8_t[]){0, 4, 8, 12, 16, 20, 24, 28}))) && (get_bit_by_position(packed, 33) == oddparity32(get_nonlinear_field(packed, 8, (uint8_t[]){1, 5, 9, 13, 17, 21, 25, 29}))) && (get_bit_by_position(packed, 34) == evenparity32(get_nonlinear_field(packed, 8, (uint8_t[]){2, 6, 10, 14, 18, 22, 28, 30}))) && (get_bit_by_position(packed, 35) == evenparity32(get_nonlinear_field(packed, 8, (uint8_t[]){3, 7, 11, 15, 19, 23, 29, 31}))); return true; } bool Pack_H10302(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0) return false; // Can't encode FC. (none in this format) if (card->CardNumber > 0x00000007FFFFFFFF) return false; // Can't encode CN. packed->Length = 37; // Set number of bits set_linear_field(packed, card->CardNumber, 1, 35); if (card->ParitySupported){ set_bit_by_position(packed, evenparity32(get_linear_field(packed, 1, 18)) , 0); set_bit_by_position(packed, oddparity32(get_linear_field(packed, 18, 18)) , 36); } return add_HID_header(packed); } bool Unpack_H10302(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 37) return false; // Wrong length? Stop here. card->CardNumber = get_linear_field(packed, 1, 35); card->ParitySupported = true; card->ParityValid = (get_bit_by_position(packed, 0) == evenparity32(get_linear_field(packed, 1, 18))) && (get_bit_by_position(packed, 36) == oddparity32(get_linear_field(packed, 18, 18))); return true; } bool Pack_H10304(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x0000FFFF) return false; // Can't encode FC. if (card->CardNumber > 0x0007FFFF) return false; // Can't encode CN. packed->Length = 37; // Set number of bits packed->bot |= (card->CardNumber & 0x0007FFFF) << 1; packed->bot |= (card->FacilityCode & 0x00000FFF) << 20; packed->mid |= (card->FacilityCode & 0x0000F000) >> 12; if (card->ParitySupported){ packed->mid |= (evenparity32((packed->mid & 0x0000000F) ^ (packed->bot & 0xFFFC0000)) & 1) << 4; packed->bot |= ( oddparity32(packed->bot & 0x0007FFFE) & 1); } return add_HID_header(packed); } bool Unpack_H10304(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 37) return false; // Wrong length? Stop here. card->CardNumber = (packed->bot >> 1) & 0x0007FFFF; card->FacilityCode = ((packed->mid & 0xF) << 12) | ((packed->bot >> 20)); card->ParitySupported = true; card->ParityValid = (evenparity32((packed->mid & 0x0000000F) ^ (packed->bot & 0xFFFC0000)) == ((packed->mid >> 4) & 1)) && (oddparity32( packed->bot & 0x0007FFFE) == (packed->bot & 1)); return true; } bool Pack_P10001(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0xFFF) return false; // Can't encode FC. if (card->CardNumber > 0xFFFF) return false; // Can't encode CN. packed->Length = 40; // Set number of bits set_linear_field(packed, 0xF, 0, 4); set_linear_field(packed, card->FacilityCode, 4, 12); set_linear_field(packed, card->CardNumber, 16, 16); if (card->ParitySupported){ set_linear_field(packed, get_linear_field(packed, 0, 8) ^ get_linear_field(packed, 8, 8) ^ get_linear_field(packed, 16, 8) ^ get_linear_field(packed, 24, 8) , 32, 8); } return add_HID_header(packed); } bool Unpack_P10001(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 40) return false; // Wrong length? Stop here. card->CardNumber = get_linear_field(packed, 16, 16); card->FacilityCode = get_linear_field(packed, 4, 12); card->ParitySupported = true; card->ParityValid = ( get_linear_field(packed, 0, 8) ^ get_linear_field(packed, 8, 8) ^ get_linear_field(packed, 16, 8) ^ get_linear_field(packed, 24, 8) ) == get_linear_field(packed, 32, 8); return true; } bool Pack_C1k48s(/*in*/hidproxcard_t* card, /*out*/hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (card->FacilityCode > 0x003FFFFF) return false; // Can't encode FC. if (card->CardNumber > 0x007FFFFF) return false; // Can't encode CN. packed->Length = 48; // Set number of bits packed->bot |= (card->CardNumber & 0x007FFFFF) << 1; packed->bot |= (card->FacilityCode & 0x000000FF) << 24; packed->mid |= (card->FacilityCode & 0x003FFF00) >> 8; if (card->ParitySupported){ packed->mid |= (evenparity32((packed->mid & 0x00001B6D) ^ (packed->bot & 0xB6DB6DB6)) & 1) << 14; packed->bot |= ( oddparity32((packed->mid & 0x000036DB) ^ (packed->bot & 0x6DB6DB6C)) & 1); packed->mid |= ( oddparity32((packed->mid & 0x00007FFF) ^ (packed->bot & 0xFFFFFFFF)) & 1) << 15; } return add_HID_header(packed); } bool Unpack_C1k48s(/*in*/hidproxmessage_t* packed, /*out*/hidproxcard_t* card){ memset(card, 0, sizeof(hidproxcard_t)); if (packed->Length != 48) return false; // Wrong length? Stop here. card->CardNumber = (packed->bot >> 1) & 0x007FFFFF; card->FacilityCode = ((packed->mid & 0x00003FFF) << 8) | ((packed->bot >> 24)); card->ParitySupported = true; card->ParityValid = (evenparity32((packed->mid & 0x00001B6D) ^ (packed->bot & 0xB6DB6DB6)) == ((packed->mid >> 14) & 1)) && ( oddparity32((packed->mid & 0x000036DB) ^ (packed->bot & 0x6DB6DB6C)) == ((packed->bot >> 0) & 1)) && ( oddparity32((packed->mid & 0x00007FFF) ^ (packed->bot & 0xFFFFFFFF)) == ((packed->mid >> 15) & 1)); return true; } static const hidcardformat_t FormatTable[] = { {"H10301", Pack_H10301, Unpack_H10301, "HID H10301 26-bit"}, // imported from old pack/unpack {"Tecom27", Pack_Tecom27, Unpack_Tecom27, "Tecom 27-bit"}, // from cardinfo.barkweb.com.au {"2804W", Pack_2804W, Unpack_2804W, "2804 Wiegand"}, // from cardinfo.barkweb.com.au {"ATSW30", Pack_ATSW30, Unpack_ATSW30, "ATS Wiegand 30-bit"}, // from cardinfo.barkweb.com.au {"ADT31", Pack_ADT31, Unpack_ADT31, "HID ADT 31-bit"}, // from cardinfo.barkweb.com.au {"D10202", Pack_D10202, Unpack_D10202, "HID D10202 33-bit"}, // from cardinfo.barkweb.com.au {"H10306", Pack_H10306, Unpack_H10306, "HID H10306 34-bit"}, // imported from old pack/unpack {"N1002", Pack_N1002, Unpack_N1002, "HID N1002 34-bit"}, // from cardinfo.barkweb.com.au {"C1k35s", Pack_C1k35s, Unpack_C1k35s, "HID Corporate 1000 35-bit standard layout"}, // imported from old pack/unpack {"H10320", Pack_H10320, Unpack_H10320, "HID H10320 36-bit BCD, Card num only"}, // from Proxmark forums {"H10302", Pack_H10302, Unpack_H10302, "HID H10302 37-bit huge, Card num only"}, // from Proxmark forums {"H10304", Pack_H10304, Unpack_H10304, "HID H10304 37-bit"}, // imported from old pack/unpack {"P10001", Pack_P10001, Unpack_P10001, "HID P10001 Honeywell 40-bit"}, // from cardinfo.barkweb.com.au {"C1k48s", Pack_C1k48s, Unpack_C1k48s, "HID Corporate 1000 48-bit standard layout"}, // imported from old pack/unpack {NULL, NULL, NULL, NULL} // Must null terminate array }; void HIDListFormats(){ if (FormatTable[0].Name == NULL) return; int i = 0; PrintAndLog("%-10s %s", "Name", "Description"); PrintAndLog("------------------------------------------------------------"); while (FormatTable[i].Name) { PrintAndLog("%-10s %s", FormatTable[i].Name, FormatTable[i].Descrp); ++i; } PrintAndLog(""); return; } hidcardformat_t HIDGetCardFormat(int idx){ return FormatTable[idx]; } int HIDFindCardFormat(const char *format) { if (FormatTable[0].Name == NULL) return -1; int i = 0; while (FormatTable[i].Name && strcmp(FormatTable[i].Name, format)) { ++i; } if (FormatTable[i].Name) { return i; } else { return -1; } } bool HIDPack(/* in */int FormatIndex, /* in */hidproxcard_t* card, /* out */hidproxmessage_t* packed){ memset(packed, 0, sizeof(hidproxmessage_t)); if (FormatIndex < 0 || FormatIndex >= (sizeof(FormatTable) / sizeof(FormatTable[0]))) return false; return FormatTable[FormatIndex].Pack(card, packed); } bool HIDTryUnpack(/* in */hidproxmessage_t* packed){ if (FormatTable[0].Name == NULL) return false; bool result = false; int i = 0; hidproxcard_t card; memset(&card, 0, sizeof(hidproxcard_t)); while (FormatTable[i].Name) { if (FormatTable[i].Unpack(packed, &card)){ result = true; PrintAndLog("%-16s FC: %u, Card %"PRIu64", Parity %s", FormatTable[i].Name, card.FacilityCode, card.CardNumber, (card.ParitySupported) ? ((card.ParityValid) ? "valid" : "invalid") : "n/a" ); } ++i; } return result; }