mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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311 lines
7.9 KiB
C
311 lines
7.9 KiB
C
//-----------------------------------------------------------------------------
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// Copyright (C) 2018 Merlok
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// Copyright (C) 2018 drHatson
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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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// iso14443-4 mifare commands
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//-----------------------------------------------------------------------------
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#include "mifare4.h"
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#include <ctype.h>
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#include <string.h>
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#include "cmdhf14a.h"
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#include "util.h"
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#include "ui.h"
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#include "crypto/libpcrypto.h"
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AccessConditions_t MFAccessConditions[] = {
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{0x00, "rdAB wrAB incAB dectrAB"},
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{0x01, "rdAB dectrAB"},
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{0x02, "rdAB"},
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{0x03, "rdB wrB"},
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{0x04, "rdAB wrB"},
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{0x05, "rdB"},
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{0x06, "rdAB wrB incB dectrAB"},
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{0x07, "none"}
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};
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AccessConditions_t MFAccessConditionsTrailer[] = {
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{0x00, "rdAbyA rdCbyA rdBbyA wrBbyA"},
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{0x01, "wrAbyA rdCbyA wrCbyA rdBbyA wrBbyA"},
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{0x02, "rdCbyA rdBbyA"},
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{0x03, "wrAbyB rdCbyAB wrCbyB wrBbyB"},
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{0x04, "wrAbyB rdCbyAB wrBbyB"},
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{0x05, "rdCbyAB wrCbyB"},
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{0x06, "rdCbyAB"},
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{0x07, "rdCbyAB"}
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};
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char *mfGetAccessConditionsDesc(uint8_t blockn, uint8_t *data) {
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static char StaticNone[] = "none";
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uint8_t data1 = ((data[1] >> 4) & 0x0f) >> blockn;
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uint8_t data2 = ((data[2]) & 0x0f) >> blockn;
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uint8_t data3 = ((data[2] >> 4) & 0x0f) >> blockn;
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uint8_t cond = (data1 & 0x01) << 2 | (data2 & 0x01) << 1 | (data3 & 0x01);
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if (blockn == 3) {
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for (int i = 0; i < ARRAYLEN(MFAccessConditionsTrailer); i++)
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if (MFAccessConditionsTrailer[i].cond == cond) {
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return MFAccessConditionsTrailer[i].description;
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}
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} else {
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for (int i = 0; i < ARRAYLEN(MFAccessConditions); i++)
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if (MFAccessConditions[i].cond == cond) {
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return MFAccessConditions[i].description;
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}
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};
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return StaticNone;
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};
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int CalculateEncIVCommand(mf4Session *session, uint8_t *iv, bool verbose) {
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memcpy(&iv[0], session->TI, 4);
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memcpy(&iv[4], &session->R_Ctr, 2);
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memcpy(&iv[6], &session->W_Ctr, 2);
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memcpy(&iv[8], &session->R_Ctr, 2);
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memcpy(&iv[10], &session->W_Ctr, 2);
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memcpy(&iv[12], &session->R_Ctr, 2);
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memcpy(&iv[14], &session->W_Ctr, 2);
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return 0;
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}
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int CalculateEncIVResponse(mf4Session *session, uint8_t *iv, bool verbose) {
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memcpy(&iv[0], &session->R_Ctr, 2);
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memcpy(&iv[2], &session->W_Ctr, 2);
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memcpy(&iv[4], &session->R_Ctr, 2);
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memcpy(&iv[6], &session->W_Ctr, 2);
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memcpy(&iv[8], &session->R_Ctr, 2);
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memcpy(&iv[10], &session->W_Ctr, 2);
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memcpy(&iv[12], session->TI, 4);
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return 0;
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}
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int CalculateMAC(mf4Session *session, MACType_t mtype, uint8_t blockNum, uint8_t blockCount, uint8_t *data, int datalen, uint8_t *mac, bool verbose) {
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if (!session || !session->Authenticated || !mac || !data || !datalen || datalen < 1)
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return 1;
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memset(mac, 0x00, 8);
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uint16_t ctr = session->R_Ctr;
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switch(mtype) {
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case mtypWriteCmd:
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case mtypWriteResp:
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ctr = session->W_Ctr;
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break;
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case mtypReadCmd:
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case mtypReadResp:
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break;
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}
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uint8_t macdata[2049] = {data[0], (ctr & 0xFF), (ctr >> 8), 0};
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int macdatalen = datalen;
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memcpy(&macdata[3], session->TI, 4);
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switch(mtype) {
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case mtypReadCmd:
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memcpy(&macdata[7], &data[1], datalen - 1);
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macdatalen = datalen + 6;
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break;
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case mtypReadResp:
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macdata[7] = blockNum;
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macdata[8] = 0;
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macdata[9] = blockCount;
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memcpy(&macdata[10], &data[1], datalen - 1);
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macdatalen = datalen + 9;
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break;
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case mtypWriteCmd:
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memcpy(&macdata[7], &data[1], datalen - 1);
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macdatalen = datalen + 6;
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break;
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case mtypWriteResp:
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macdatalen = 1 + 6;
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break;
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}
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if (verbose)
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PrintAndLog("MAC data[%d]: %s", macdatalen, sprint_hex(macdata, macdatalen));
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return aes_cmac8(NULL, session->Kmac, macdata, mac, macdatalen);
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}
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int MifareAuth4(mf4Session *session, uint8_t *keyn, uint8_t *key, bool activateField, bool leaveSignalON, bool verbose) {
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uint8_t data[257] = {0};
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int datalen = 0;
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uint8_t RndA[17] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x00};
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uint8_t RndB[17] = {0};
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if (session)
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session->Authenticated = false;
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uint8_t cmd1[] = {0x70, keyn[1], keyn[0], 0x00};
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int res = ExchangeRAW14a(cmd1, sizeof(cmd1), activateField, true, data, sizeof(data), &datalen);
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if (res) {
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PrintAndLogEx(ERR, "Exchande raw error: %d", res);
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DropField();
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return 2;
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}
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if (verbose)
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PrintAndLogEx(INFO, "<phase1: %s", sprint_hex(data, datalen));
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if (datalen < 1) {
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PrintAndLogEx(ERR, "Card response wrong length: %d", datalen);
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DropField();
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return 3;
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}
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if (data[0] != 0x90) {
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PrintAndLogEx(ERR, "Card response error: %02x", data[2]);
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DropField();
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return 3;
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}
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if (datalen != 19) { // code 1b + 16b + crc 2b
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PrintAndLogEx(ERR, "Card response must be 19 bytes long instead of: %d", datalen);
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DropField();
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return 3;
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}
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aes_decode(NULL, key, &data[1], RndB, 16);
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RndB[16] = RndB[0];
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if (verbose)
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PrintAndLogEx(INFO, "RndB: %s", sprint_hex(RndB, 16));
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uint8_t cmd2[33] = {0};
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cmd2[0] = 0x72;
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uint8_t raw[32] = {0};
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memmove(raw, RndA, 16);
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memmove(&raw[16], &RndB[1], 16);
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aes_encode(NULL, key, raw, &cmd2[1], 32);
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if (verbose)
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PrintAndLogEx(INFO, ">phase2: %s", sprint_hex(cmd2, 33));
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res = ExchangeRAW14a(cmd2, sizeof(cmd2), false, true, data, sizeof(data), &datalen);
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if (res) {
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PrintAndLogEx(ERR, "Exchande raw error: %d", res);
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DropField();
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return 4;
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}
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if (verbose)
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PrintAndLogEx(INFO, "<phase2: %s", sprint_hex(data, datalen));
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aes_decode(NULL, key, &data[1], raw, 32);
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if (verbose) {
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PrintAndLogEx(INFO, "res: %s", sprint_hex(raw, 32));
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PrintAndLogEx(INFO, "RndA`: %s", sprint_hex(&raw[4], 16));
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}
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if (memcmp(&raw[4], &RndA[1], 16)) {
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PrintAndLogEx(ERR, "\nAuthentication FAILED. rnd not equal");
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if (verbose) {
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PrintAndLogEx(ERR, "RndA reader: %s", sprint_hex(&RndA[1], 16));
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PrintAndLogEx(ERR, "RndA card: %s", sprint_hex(&raw[4], 16));
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}
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DropField();
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return 5;
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}
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if (verbose) {
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PrintAndLogEx(INFO, " TI: %s", sprint_hex(raw, 4));
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PrintAndLogEx(INFO, "pic: %s", sprint_hex(&raw[20], 6));
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PrintAndLogEx(INFO, "pcd: %s", sprint_hex(&raw[26], 6));
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}
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uint8_t kenc[16] = {0};
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memcpy(&kenc[0], &RndA[11], 5);
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memcpy(&kenc[5], &RndB[11], 5);
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for(int i = 0; i < 5; i++)
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kenc[10 + i] = RndA[4 + i] ^ RndB[4 + i];
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kenc[15] = 0x11;
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aes_encode(NULL, key, kenc, kenc, 16);
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if (verbose) {
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PrintAndLogEx(INFO, "kenc: %s", sprint_hex(kenc, 16));
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}
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uint8_t kmac[16] = {0};
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memcpy(&kmac[0], &RndA[7], 5);
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memcpy(&kmac[5], &RndB[7], 5);
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for(int i = 0; i < 5; i++)
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kmac[10 + i] = RndA[0 + i] ^ RndB[0 + i];
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kmac[15] = 0x22;
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aes_encode(NULL, key, kmac, kmac, 16);
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if (verbose) {
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PrintAndLogEx(INFO, "kmac: %s", sprint_hex(kmac, 16));
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}
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if (!leaveSignalON)
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DropField();
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if (verbose)
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PrintAndLog("");
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if (session) {
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session->Authenticated = true;
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session->R_Ctr = 0;
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session->W_Ctr = 0;
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session->KeyNum = keyn[1] + (keyn[0] << 8);
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memmove(session->RndA, RndA, 16);
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memmove(session->RndB, RndB, 16);
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memmove(session->Key, key, 16);
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memmove(session->TI, raw, 4);
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memmove(session->PICCap2, &raw[20], 6);
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memmove(session->PCDCap2, &raw[26], 6);
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memmove(session->Kenc, kenc, 16);
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memmove(session->Kmac, kmac, 16);
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}
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PrintAndLogEx(INFO, "Authentication OK");
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return 0;
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}
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// Mifare Memory Structure: up to 32 Sectors with 4 blocks each (1k and 2k cards),
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// plus evtl. 8 sectors with 16 blocks each (4k cards)
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uint8_t mfNumBlocksPerSector(uint8_t sectorNo) {
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if (sectorNo < 32)
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return 4;
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else
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return 16;
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}
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uint8_t mfFirstBlockOfSector(uint8_t sectorNo) {
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if (sectorNo < 32)
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return sectorNo * 4;
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else
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return 32 * 4 + (sectorNo - 32) * 16;
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}
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uint8_t mfSectorTrailer(uint8_t blockNo) {
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if (blockNo < 32*4) {
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return (blockNo | 0x03);
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} else {
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return (blockNo | 0x0f);
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}
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}
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bool mfIsSectorTrailer(uint8_t blockNo) {
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return (blockNo == mfSectorTrailer(blockNo));
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}
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uint8_t mfSectorNum(uint8_t blockNo) {
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if (blockNo < 32 * 4)
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return blockNo / 4;
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else
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return 32 + (blockNo - 32 * 4) / 16;
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}
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