proxmark3/client/emv/cmdemv.c

//-----------------------------------------------------------------------------
// Copyright (C) 2017 Merlok
// modified 2017 iceman
// 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.
//-----------------------------------------------------------------------------
// EMV commands
//-----------------------------------------------------------------------------

#include <ctype.h>
#include "mifare.h"
#include "cmdemv.h"
#include "emvjson.h"
#include "emv_pki.h"
#include "test/cryptotest.h"
#include "cliparser/cliparser.h"
#include <jansson.h>

static int CmdHelp(const char *Cmd);

#define TLV_ADD(tag, value)( tlvdb_change_or_add_node(tlvRoot, tag, sizeof(value) - 1, (const unsigned char *)value) )
void ParamLoadDefaults(struct tlvdb *tlvRoot) {
	//9F02:(Amount, authorized (Numeric)) len:6
	TLV_ADD(0x9F02, "\x00\x00\x00\x00\x01\x00");
	//9F1A:(Terminal Country Code) len:2
	TLV_ADD(0x9F1A, "ru");
	//5F2A:(Transaction Currency Code) len:2
	// USD 840, EUR 978, RUR 810, RUB 643, RUR 810(old), UAH 980, AZN 031, n/a 999
	TLV_ADD(0x5F2A, "\x09\x80");
	//9A:(Transaction Date) len:3
	TLV_ADD(0x9A,   "\x00\x00\x00");
	//9C:(Transaction Type) len:1   |  00 => Goods and service #01 => Cash
	TLV_ADD(0x9C,   "\x00");
	// 9F37 Unpredictable Number len:4
	TLV_ADD(0x9F37, "\x01\x02\x03\x04");
	// 9F6A Unpredictable Number (MSD for UDOL) len:4
	TLV_ADD(0x9F6A, "\x01\x02\x03\x04");
	//9F66:(Terminal Transaction Qualifiers (TTQ)) len:4
	TLV_ADD(0x9F66, "\x26\x00\x00\x00"); // qVSDC
	//95:(Terminal Verification Results) len:5
	// all OK TVR
	TLV_ADD(0x95,   "\x00\x00\x00\x00\x00");
}

void PrintChannel(EMVCommandChannel channel) {
	switch(channel) {
	case ECC_CONTACTLESS:
		PrintAndLogEx(INFO, "Channel: CONTACTLESS");
		break;
	case ECC_CONTACT:
		PrintAndLogEx(INFO, "Channel: CONTACT");
		break;
	}
}

int CmdEMVSelect(const char *cmd) {
	uint8_t data[APDU_AID_LEN] = {0};
	int datalen = 0;

	CLIParserInit("emv select", 
		"Executes select applet command", 
		"Usage:\n\temv select -s a00000000101 -> select card, select applet\n\temv select -st a00000000101 -> select card, select applet, show result in TLV\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("sS",  "select",  "activate field and select card"),
		arg_lit0("kK",  "keep",    "keep field for next command"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_strx0(NULL,  NULL,     "<HEX applet AID>", NULL),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool activateField = arg_get_lit(1);
	bool leaveSignalON = arg_get_lit(2);
	bool APDULogging = arg_get_lit(3);
	bool decodeTLV = arg_get_lit(4);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(5))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIGetHexWithReturn(6, data, &datalen);
	CLIParserFree();
	
	SetAPDULogging(APDULogging);
	
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVSelect(channel, activateField, leaveSignalON, data, datalen, buf, sizeof(buf), &len, &sw, NULL);

	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 
	
	if (res)
		return res;
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;
}

int CmdEMVSearch(const char *cmd) {

	CLIParserInit("emv search", 
		"Tries to select all applets from applet list:\n", 
		"Usage:\n\temv search -s -> select card and search\n\temv search -st -> select card, search and show result in TLV\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("sS",  "select",  "activate field and select card"),
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool activateField = arg_get_lit(1);
	bool leaveSignalON = arg_get_lit(2);
	bool APDULogging = arg_get_lit(3);
	bool decodeTLV = arg_get_lit(4);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(5))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIParserFree();
	
	SetAPDULogging(APDULogging);
	
	struct tlvdb *t = NULL;
	const char *al = "Applets list";
	t = tlvdb_fixed(1, strlen(al), (const unsigned char *)al);

	if (EMVSearch(channel, activateField, leaveSignalON, decodeTLV, t)) {
		tlvdb_free(t);
		return 2;
	}
	
	PrintAndLogEx(SUCCESS, "Search completed.");

	// print list here
	if (!decodeTLV) {  
		TLVPrintAIDlistFromSelectTLV(t);
	}
	
	tlvdb_free(t);
	
	return 0;
}

int CmdEMVPPSE(const char *cmd) {
	
	CLIParserInit("emv pse", 
		"Executes PSE/PPSE select command. It returns list of applet on the card:\n", 
		"Usage:\n\temv pse -s1 -> select, get pse\n\temv pse -st2 -> select, get ppse, show result in TLV\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("sS",  "select",  "activate field and select card"),
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("1",   "pse",     "pse (1PAY.SYS.DDF01) mode"),
		arg_lit0("2",   "ppse",    "ppse (2PAY.SYS.DDF01) mode (default mode)"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool activateField = arg_get_lit(1);
	bool leaveSignalON = arg_get_lit(2);
	uint8_t PSENum = 2;
	if (arg_get_lit(3))
		PSENum = 1;
	if (arg_get_lit(4))
		PSENum = 2;
	bool APDULogging = arg_get_lit(5);
	bool decodeTLV = arg_get_lit(6);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(7))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIParserFree();	
	
	SetAPDULogging(APDULogging);
	
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVSelectPSE(channel, activateField, leaveSignalON, PSENum, buf, sizeof(buf), &len, &sw);
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;
	
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;
}

int CmdEMVGPO(const char *cmd) {
	uint8_t data[APDU_RES_LEN] = {0};
	int datalen = 0;

	CLIParserInit("emv gpo", 
		"Executes Get Processing Options command. It returns data in TLV format (0x77 - format2) or plain format (0x80 - format1).\nNeeds a EMV applet to be selected.", 
		"Usage:\n\temv gpo -k -> execute GPO\n"
			"\temv gpo -t 01020304 -> execute GPO with 4-byte PDOL data, show result in TLV\n"
			"\temv gpo -pmt 9F 37 04 -> load params from file, make PDOL data from PDOL, execute GPO with PDOL, show result in TLV\n"); 

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("pP",  "params",  "load parameters from `emv/defparams.json` file for PDOLdata making from PDOL and parameters"),
		arg_lit0("mM",  "make",    "make PDOLdata from PDOL (tag 9F38) and parameters (by default uses default parameters)"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_strx0(NULL,  NULL,     "<HEX PDOLdata/PDOL>", NULL),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool leaveSignalON = arg_get_lit(1);
	bool paramsLoadFromFile = arg_get_lit(2);
	bool dataMakeFromPDOL = arg_get_lit(3);
	bool APDULogging = arg_get_lit(4);
	bool decodeTLV = arg_get_lit(5);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(6))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIGetHexWithReturn(7, data, &datalen);
	CLIParserFree();	
	
	SetAPDULogging(APDULogging);
	
	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	struct tlvdb *tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);
	
	// calc PDOL
	struct tlv *pdol_data_tlv = NULL;
	struct tlv data_tlv = {
		.tag = 0x83,
		.len = datalen,
		.value = (uint8_t *)data,
	};
	if (dataMakeFromPDOL) {
		ParamLoadDefaults(tlvRoot);

		if (paramsLoadFromFile) {
			PrintAndLogEx(INFO, "Params loading from file...");
			ParamLoadFromJson(tlvRoot);
		};
		
		pdol_data_tlv = dol_process((const struct tlv *)tlvdb_external(0x9f38, datalen, data), tlvRoot, 0x83);
		if (!pdol_data_tlv){
			PrintAndLogEx(ERR, "Can't create PDOL TLV.");
			tlvdb_free(tlvRoot);
			return 4;
		}
	} else {
		if (paramsLoadFromFile) {
			PrintAndLogEx(WARNING, "Don't need to load parameters. Sending plain PDOL data...");
		}
		pdol_data_tlv = &data_tlv;
	}

	size_t pdol_data_tlv_data_len = 0;
	unsigned char *pdol_data_tlv_data = tlv_encode(pdol_data_tlv, &pdol_data_tlv_data_len);
	if (!pdol_data_tlv_data) {
		PrintAndLogEx(ERR, "Can't create PDOL data.");
		tlvdb_free(tlvRoot);
		return 4;
	}
	PrintAndLogEx(INFO, "PDOL data[%d]: %s", pdol_data_tlv_data_len, sprint_hex(pdol_data_tlv_data, pdol_data_tlv_data_len));
	
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVGPO(channel, leaveSignalON, pdol_data_tlv_data, pdol_data_tlv_data_len, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	if (pdol_data_tlv != &data_tlv)
		free(pdol_data_tlv);
	tlvdb_free(tlvRoot);
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;
}

int CmdEMVReadRecord(const char *cmd) {
	uint8_t data[APDU_RES_LEN] = {0};
	int datalen = 0;

	CLIParserInit("emv readrec", 
		"Executes Read Record command. It returns data in TLV format.\nNeeds a bank applet to be selected and sometimes needs GPO to be executed.", 
		"Usage:\n\temv readrec -k 0101 -> read file SFI=01, SFIrec=01\n\temv readrec -kt 0201-> read file 0201 and show result in TLV\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_strx1(NULL,  NULL,     "<SFI 1byte HEX><SFIrecord 1byte HEX>", NULL),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool leaveSignalON = arg_get_lit(1);
	bool APDULogging = arg_get_lit(2);
	bool decodeTLV = arg_get_lit(3);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(4))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIGetHexWithReturn(5, data, &datalen);
	CLIParserFree();
	
	if (datalen != 2) {
		PrintAndLogEx(ERR, "Command needs to have 2 bytes of data");
		return 1;
	}
	
	SetAPDULogging(APDULogging);
		
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVReadRecord(channel, leaveSignalON, data[0], data[1], buf, sizeof(buf), &len, &sw, NULL);
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;
	
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;
}

int CmdEMVAC(const char *cmd) {
	uint8_t data[APDU_RES_LEN] = {0};
	int datalen = 0;

	CLIParserInit("emv genac", 
		"Generate Application Cryptogram command. It returns data in TLV format .\nNeeds a EMV applet to be selected and GPO to be executed.", 
		"Usage:\n\temv genac -k 0102 -> generate AC with 2-byte CDOLdata and keep field ON after command\n"
			"\temv genac -t 01020304 -> generate AC with 4-byte CDOL data, show result in TLV\n"
			"\temv genac -Daac 01020304 -> generate AC with 4-byte CDOL data and terminal decision 'declined'\n"
			"\temv genac -pmt 9F 37 04 -> load params from file, make CDOL data from CDOL, generate AC with CDOL, show result in TLV"); 

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("kK",  "keep",     "keep field ON for next command"),
		arg_lit0("cC",  "cda",      "executes CDA transaction. Needs to get SDAD in results."),
		arg_str0("dD",  "decision", "<aac|tc|arqc>", "Terminal decision. aac - declined, tc - approved, arqc - online authorisation requested"),
		arg_lit0("pP",  "params",   "load parameters from `emv/defparams.json` file for CDOLdata making from CDOL and parameters"),
		arg_lit0("mM",  "make",     "make CDOLdata from CDOL (tag 8C and 8D) and parameters (by default uses default parameters)"),
		arg_lit0("aA",  "apdu",     "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",      "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_strx1(NULL,  NULL,      "<HEX CDOLdata/CDOL>", NULL),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, false);
	
	bool leaveSignalON = arg_get_lit(1);
	bool trTypeCDA = arg_get_lit(2);
	uint8_t termDecision = 0xff;
	if (arg_get_str_len(3)) {
		if (!strncmp(arg_get_str(3)->sval[0], "aac", 4))
			termDecision = EMVAC_AAC;
		if (!strncmp(arg_get_str(3)->sval[0], "tc", 4))
			termDecision = EMVAC_TC;
		if (!strncmp(arg_get_str(3)->sval[0], "arqc", 4))
			termDecision = EMVAC_ARQC;

		if (termDecision == 0xff) {
			PrintAndLog("ERROR: can't find terminal decision '%s'", arg_get_str(3)->sval[0]);
			return 1;
		}
	} else {
		termDecision = EMVAC_TC;
	}
	if (trTypeCDA)
		termDecision = termDecision | EMVAC_CDAREQ;
	bool paramsLoadFromFile = arg_get_lit(4);
	bool dataMakeFromCDOL = arg_get_lit(5);
	bool APDULogging = arg_get_lit(6);
	bool decodeTLV = arg_get_lit(7);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(8))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIGetHexWithReturn(9, data, &datalen);
	CLIParserFree();	
	
	SetAPDULogging(APDULogging);
	
	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	struct tlvdb *tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);
	
	// calc CDOL
	struct tlv *cdol_data_tlv = NULL;
	struct tlv data_tlv = {
		.tag = 0x01,
		.len = datalen,
		.value = (uint8_t *)data,
	};
	
	if (dataMakeFromCDOL) {
		ParamLoadDefaults(tlvRoot);

		if (paramsLoadFromFile) {
			PrintAndLogEx(INFO, "Params loading from file...");
			ParamLoadFromJson(tlvRoot);
		};
		
		cdol_data_tlv = dol_process((const struct tlv *)tlvdb_external(0x8c, datalen, data), tlvRoot, 0x01); // 0x01 - dummy tag
		if (!cdol_data_tlv){
			PrintAndLogEx(ERR, "Can't create CDOL TLV.");
			tlvdb_free(tlvRoot);
			return 4;
		}
	} else {
		if (paramsLoadFromFile) {
			PrintAndLogEx(WARNING, "Don't need to load parameters. Sending plain CDOL data...");
		}
		cdol_data_tlv = &data_tlv;
	}
	
	PrintAndLogEx(INFO, "CDOL data[%d]: %s", cdol_data_tlv->len, sprint_hex(cdol_data_tlv->value, cdol_data_tlv->len));

	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVAC(channel, leaveSignalON, termDecision, (uint8_t *)cdol_data_tlv->value, cdol_data_tlv->len, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	if (cdol_data_tlv != &data_tlv)
		free(cdol_data_tlv);
	tlvdb_free(tlvRoot);
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;	
}

int CmdEMVGenerateChallenge(const char *cmd) {

	CLIParserInit("emv challenge", 
		"Executes Generate Challenge command. It returns 4 or 8-byte random number from card.\nNeeds a EMV applet to be selected and GPO to be executed.", 
		"Usage:\n\temv challenge -> get challenge\n\temv challenge -k -> get challenge, keep fileld ON\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool leaveSignalON = arg_get_lit(1);
	bool APDULogging = arg_get_lit(2);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(3))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIParserFree();	
	
	SetAPDULogging(APDULogging);
	
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVGenerateChallenge(channel, leaveSignalON, buf, sizeof(buf), &len, &sw, NULL);
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;

	PrintAndLogEx(SUCCESS, "Challenge: %s", sprint_hex(buf, len));
	
	if (len != 4 && len != 8)
		PrintAndLogEx(WARNING, "Length of challenge must be 4 or 8, but it %d", len);
	
	return 0;
}

int CmdEMVInternalAuthenticate(const char *cmd) {
	uint8_t data[APDU_RES_LEN] = {0};
	int datalen = 0;

	CLIParserInit("emv intauth", 
		"Generate Internal Authenticate command. Usually needs 4-byte random number. It returns data in TLV format .\n"
		"Needs a EMV applet to be selected and GPO to be executed.", 
		
		"Usage:\n"
		"\temv intauth -k 01020304 -> execute Internal Authenticate with 4-byte DDOLdata and keep field ON after command\n"
			"\temv intauth -t 01020304 -> execute Internal Authenticate with 4-byte DDOL data, show result in TLV\n"
			"\temv intauth -pmt 9F 37 04 -> load params from file, make DDOL data from DDOL, Internal Authenticate with DDOL, show result in TLV"); 

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("kK",  "keep",    "keep field ON for next command"),
		arg_lit0("pP",  "params",  "load parameters from `emv/defparams.json` file for DDOLdata making from DDOL and parameters"),
		arg_lit0("mM",  "make",    "make DDOLdata from DDOL (tag 9F49) and parameters (by default uses default parameters)"),
		arg_lit0("aA",  "apdu",    "show APDU reqests and responses"),
		arg_lit0("tT",  "tlv",     "TLV decode results of selected applets"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_strx1(NULL,  NULL,     "<HEX DDOLdata/DDOL>", NULL),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, false);
	
	bool leaveSignalON = arg_get_lit(1);
	bool paramsLoadFromFile = arg_get_lit(2);
	bool dataMakeFromDDOL = arg_get_lit(3);
	bool APDULogging = arg_get_lit(4);
	bool decodeTLV = arg_get_lit(5);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(6))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIGetHexWithReturn(7, data, &datalen);
	CLIParserFree();	
	
	SetAPDULogging(APDULogging);

	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	struct tlvdb *tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);
	
	// calc DDOL
	struct tlv *ddol_data_tlv = NULL;
	struct tlv data_tlv = {
		.tag = 0x01,
		.len = datalen,
		.value = (uint8_t *)data,
	};
	
	if (dataMakeFromDDOL) {
		ParamLoadDefaults(tlvRoot);

		if (paramsLoadFromFile) {
			PrintAndLogEx(INFO, "Params loading from file...");
			ParamLoadFromJson(tlvRoot);
		};
		
		ddol_data_tlv = dol_process((const struct tlv *)tlvdb_external(0x9f49, datalen, data), tlvRoot, 0x01); // 0x01 - dummy tag
		if (!ddol_data_tlv){
			PrintAndLogEx(ERR, "Can't create DDOL TLV.");
			tlvdb_free(tlvRoot);
			return 4;
		}
	} else {
		if (paramsLoadFromFile) {
			PrintAndLogEx(WARNING, "Don't need to load parameters. Sending plain DDOL data...");
		}
		ddol_data_tlv = &data_tlv;
	}
	
	PrintAndLogEx(INFO, "DDOL data[%d]: %s", ddol_data_tlv->len, sprint_hex(ddol_data_tlv->value, ddol_data_tlv->len));
	
	// exec
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res = EMVInternalAuthenticate(channel, leaveSignalON, data, datalen, buf, sizeof(buf), &len, &sw, NULL);
	
	if (ddol_data_tlv != &data_tlv)
		free(ddol_data_tlv);
	tlvdb_free(tlvRoot);	
	
	if (sw)
		PrintAndLogEx(INFO, "APDU response status: %04x - %s", sw, GetAPDUCodeDescription(sw >> 8, sw & 0xff)); 

	if (res)
		return res;
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	return 0;	
}

#define dreturn(n) {free(pdol_data_tlv); tlvdb_free(tlvSelect); tlvdb_free(tlvRoot); DropFieldEx( channel ); return n;}

void InitTransactionParameters(struct tlvdb *tlvRoot, bool paramLoadJSON, enum TransactionType TrType, bool GenACGPO) {
	
	ParamLoadDefaults(tlvRoot);

	if (paramLoadJSON) {
		PrintAndLog("* * Transaction parameters loading from JSON...");
		ParamLoadFromJson(tlvRoot);
	}
	
	//9F66:(Terminal Transaction Qualifiers (TTQ)) len:4
	char *qVSDC = "\x26\x00\x00\x00";
	if (GenACGPO) {
		qVSDC = "\x26\x80\x00\x00";
	}
	switch(TrType) {
		case TT_MSD:
			TLV_ADD(0x9F66, "\x86\x00\x00\x00"); // MSD
			break;
		// not standard for contactless. just for test.
		case TT_VSDC:  
			TLV_ADD(0x9F66, "\x46\x00\x00\x00"); // VSDC
			break;
		case TT_QVSDCMCHIP:
			TLV_ADD(0x9F66, qVSDC); // qVSDC
			break;
		case TT_CDA:
			TLV_ADD(0x9F66, qVSDC); // qVSDC (VISA CDA not enabled)
			break;
		default:
			break;
	}
}

void ProcessGPOResponseFormat1(struct tlvdb *tlvRoot, uint8_t *buf, size_t len, bool decodeTLV) {
	if (buf[0] == 0x80) {
		if (decodeTLV){
			PrintAndLog("GPO response format1:");
			TLVPrintFromBuffer(buf, len);
		}
		
		if (len < 4 || (len - 4) % 4) {
			PrintAndLogEx(ERR, "GPO response format1 parsing error. length=%d", len);
		} else {
			// AIP
			struct tlvdb * f1AIP = tlvdb_fixed(0x82, 2, buf + 2);
			tlvdb_add(tlvRoot, f1AIP);
			if (decodeTLV){
				PrintAndLogEx(INFO, "\n* * Decode response format 1 (0x80) AIP and AFL:");
				TLVPrintFromTLV(f1AIP);
			}

			// AFL
			struct tlvdb * f1AFL = tlvdb_fixed(0x94, len - 4, buf + 2 + 2);
			tlvdb_add(tlvRoot, f1AFL);
			if (decodeTLV)
				TLVPrintFromTLV(f1AFL);
		}		
	} else {
		if (decodeTLV)
			TLVPrintFromBuffer(buf, len);
	}
}

void ProcessACResponseFormat1(struct tlvdb *tlvRoot, uint8_t *buf, size_t len, bool decodeTLV) {
	if (buf[0] == 0x80) {
		if (decodeTLV){
			PrintAndLog("GPO response format1:");
			TLVPrintFromBuffer(buf, len);
		}
		
		uint8_t elmlen = len - 2; // wo 0x80XX
		
		if (len < 4 + 2 || (elmlen - 2) % 4 || elmlen != buf[1]) {
			PrintAndLogEx(ERR, "GPO response format1 parsing error. length=%d", len);
		} else {
			struct tlvdb *tlvElm = NULL;
			if (decodeTLV)
				PrintAndLog("\n------------ Format1 decoded ------------");
			
			// CID (Cryptogram Information Data)
			tlvdb_change_or_add_node_ex(tlvRoot, 0x9f27, 1, &buf[2], &tlvElm);
			if (decodeTLV)
				TLVPrintFromTLV(tlvElm);

			// ATC (Application Transaction Counter)
			tlvdb_change_or_add_node_ex(tlvRoot, 0x9f36, 2, &buf[3], &tlvElm);		
			if (decodeTLV)
				TLVPrintFromTLV(tlvElm);

			// AC (Application Cryptogram)
			tlvdb_change_or_add_node_ex(tlvRoot, 0x9f26, MIN(8, elmlen - 3), &buf[5], &tlvElm);		
			if (decodeTLV)
				TLVPrintFromTLV(tlvElm);

			// IAD (Issuer Application Data) - optional
			if (len > 11 + 2) {
				tlvdb_change_or_add_node_ex(tlvRoot, 0x9f10, elmlen - 11, &buf[13], &tlvElm);		
				if (decodeTLV)
					TLVPrintFromTLV(tlvElm);
			}			
		}		
	} else {
		if (decodeTLV)
			TLVPrintFromBuffer(buf, len);
	}
}

int CmdEMVExec(const char *cmd) {
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	uint8_t AID[APDU_AID_LEN] = {0};
	size_t AIDlen = 0;
	uint8_t ODAiList[4096];
	size_t ODAiListLen = 0;
	
	int res;
	
	struct tlvdb *tlvSelect = NULL;
	struct tlvdb *tlvRoot = NULL;
	struct tlv *pdol_data_tlv = NULL;

	CLIParserInit("emv exec", 
		"Executes EMV contactless transaction", 
		"Usage:\n"
			"\temv exec -sat -> select card, execute MSD transaction, show APDU and TLV\n"
			"\temv exec -satc -> select card, execute CDA transaction, show APDU and TLV\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("sS",  "select",   "activate field and select card."),
		arg_lit0("aA",  "apdu",     "show APDU reqests and responses."),
		arg_lit0("tT",  "tlv",      "TLV decode results."),
		arg_lit0("jJ",  "jload",    "Load transaction parameters from `emv/defparams.json` file."),
		arg_lit0("fF",  "forceaid", "Force search AID. Search AID instead of execute PPSE."),
		arg_rem("By default:",      "Transaction type - MSD"),
		arg_lit0("vV",  "qvsdc",    "Transaction type - qVSDC or M/Chip."),
		arg_lit0("cC",  "qvsdccda", "Transaction type - qVSDC or M/Chip plus CDA (SDAD generation)."),
		arg_lit0("xX",  "vsdc",     "Transaction type - VSDC. For test only. Not a standart behavior."),
		arg_lit0("gG",  "acgpo",    "VISA. generate AC from GPO."),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool activateField = arg_get_lit(1);
	bool showAPDU = arg_get_lit(2);
	bool decodeTLV = arg_get_lit(3);
	bool paramLoadJSON = arg_get_lit(4);
	bool forceSearch = arg_get_lit(5);

	enum TransactionType TrType = TT_MSD;
	if (arg_get_lit(7))
		TrType = TT_QVSDCMCHIP;
	if (arg_get_lit(8))
		TrType = TT_CDA;
	if (arg_get_lit(9))
		TrType = TT_VSDC;

	bool GenACGPO = arg_get_lit(10);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(11))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	uint8_t psenum = (channel == ECC_CONTACT) ? 1 : 2;
	CLIParserFree();
	
#ifndef WITH_SMARTCARD
	// not compiled with smartcard functionality,  we need to exit
	if ( channel == ECC_CONTACT ) {
		PrintAndLogEx(WARNING, "PM3 Client is not compiled with support for SMARTCARD. Exiting.");
		return 0;
	}
#endif	

	SetAPDULogging(showAPDU);
	
	// init applets list tree
	const char *al = "Applets list";
	tlvSelect = tlvdb_fixed(1, strlen(al), (const unsigned char *)al);

	// Application Selection
	// https://www.openscdp.org/scripts/tutorial/emv/applicationselection.html
	if (!forceSearch) {
		// PPSE
		PrintAndLogEx(NORMAL, "\n* PPSE.");
		SetAPDULogging(showAPDU);
		res = EMVSearchPSE(channel, activateField, true, psenum, decodeTLV, tlvSelect);

		// check PPSE and select application id
		if (!res) {	
			TLVPrintAIDlistFromSelectTLV(tlvSelect);
			EMVSelectApplication(tlvSelect, AID, &AIDlen);
		}
	}
	
	// Search
	if (!AIDlen) {
		PrintAndLogEx(NORMAL, "\n* Search AID in list.");
		SetAPDULogging(false);
		if (EMVSearch(channel, activateField, true, decodeTLV, tlvSelect)) {
			dreturn(2);
		}

		// check search and select application id
		TLVPrintAIDlistFromSelectTLV(tlvSelect);
		EMVSelectApplication(tlvSelect, AID, &AIDlen);
	}
	
	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);
	
	// check if we found EMV application on card
	if (!AIDlen) {
		PrintAndLogEx(WARNING, "Can't select AID. EMV AID not found");
		dreturn(2);
	}
	
	// Select
	PrintAndLogEx(NORMAL, "\n* Selecting AID:%s", sprint_hex_inrow(AID, AIDlen));
	SetAPDULogging(showAPDU);
	res = EMVSelect(channel, false, true, AID, AIDlen, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	if (res) {	
		PrintAndLogEx(WARNING, "Can't select AID (%d). Exit...", res);
		dreturn(3);
	}
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);
	PrintAndLog("* Selected.");
	
	PrintAndLog("\n* Init transaction parameters.");
	InitTransactionParameters(tlvRoot, paramLoadJSON, TrType, GenACGPO);
	TLVPrintFromTLV(tlvRoot); // TODO delete!!!
	
	PrintAndLogEx(NORMAL, "\n* Calc PDOL.");
	pdol_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x9f38, NULL), tlvRoot, 0x83);
	if (!pdol_data_tlv){
		PrintAndLogEx(WARNING, "Error: can't create PDOL TLV.");
		dreturn(4);
	}
	
	size_t pdol_data_tlv_data_len;
	unsigned char *pdol_data_tlv_data = tlv_encode(pdol_data_tlv, &pdol_data_tlv_data_len);
	if (!pdol_data_tlv_data) {
		PrintAndLogEx(WARNING, "Error: can't create PDOL data.");
		dreturn(4);
	}
	PrintAndLogEx(NORMAL, "PDOL data[%d]: %s", pdol_data_tlv_data_len, sprint_hex(pdol_data_tlv_data, pdol_data_tlv_data_len));

	PrintAndLogEx(NORMAL, "\n* GPO.");
	res = EMVGPO(channel, true, pdol_data_tlv_data, pdol_data_tlv_data_len, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	free(pdol_data_tlv_data);
	//free(pdol_data_tlv); --- free on exit.
	
	if (res) {	
		PrintAndLogEx(NORMAL, "GPO error(%d): %4x. Exit...", res, sw);
		dreturn(5);
	}

	// process response template format 1 [id:80  2b AIP + x4b AFL] and format 2 [id:77 TLV]
	ProcessGPOResponseFormat1(tlvRoot, buf, len, decodeTLV);
	
	// extract PAN from track2
	{
		const struct tlv *track2 = tlvdb_get(tlvRoot, 0x57, NULL);
		if (!tlvdb_get(tlvRoot, 0x5a, NULL) && track2 && track2->len >= 8) {
			struct tlvdb *pan = GetPANFromTrack2(track2);
			if (pan) {
				tlvdb_add(tlvRoot, pan); 
				
				const struct tlv *pantlv = tlvdb_get(tlvRoot, 0x5a, NULL);	
				PrintAndLogEx(NORMAL, "\n* * Extracted PAN from track2: %s", sprint_hex(pantlv->value, pantlv->len));
			} else {
				PrintAndLogEx(NORMAL, "\n* * WARNING: Can't extract PAN from track2.");
			}
		}
	}
	
	PrintAndLogEx(NORMAL, "\n* Read records from AFL.");
	const struct tlv *AFL = tlvdb_get(tlvRoot, 0x94, NULL);

	if (!AFL || !AFL->len)
		PrintAndLogEx(NORMAL, "WARNING: AFL not found.");
	
	while (AFL && AFL->len) {
		if (AFL->len % 4) {
			PrintAndLogEx(WARNING, "Error: Wrong AFL length: %d", AFL->len);
			break;
		}

		for (int i = 0; i < AFL->len / 4; i++) {
			uint8_t SFI = AFL->value[i * 4 + 0] >> 3;
			uint8_t SFIstart = AFL->value[i * 4 + 1];
			uint8_t SFIend = AFL->value[i * 4 + 2];
			uint8_t SFIoffline = AFL->value[i * 4 + 3];
			
			PrintAndLogEx(NORMAL, "* * SFI[%02x] start:%02x end:%02x offline count:%02x", SFI, SFIstart, SFIend, SFIoffline);
			if (SFI == 0 || SFI == 31 || SFIstart == 0 || SFIstart > SFIend) {
				PrintAndLogEx(NORMAL, "SFI ERROR! Skipped...");
				continue;
			}
			
			for (int n = SFIstart; n <= SFIend; n++) {
				PrintAndLogEx(NORMAL, "* * * SFI[%02x] %d", SFI, n);
				
				res = EMVReadRecord(channel, true, SFI, n, buf, sizeof(buf), &len, &sw, tlvRoot);
				if (res) {
					PrintAndLogEx(WARNING, "Error SFI[%02x]. APDU error %4x", SFI, sw);
					continue;
				}
				
				if (decodeTLV) {
					TLVPrintFromBuffer(buf, len);
					PrintAndLogEx(NORMAL, "");
				}
				
				// Build Input list for Offline Data Authentication
				// EMV 4.3 book3 10.3, page 96
				if (SFIoffline > 0) {
					if (SFI < 11) {
						const unsigned char *abuf = buf;
						size_t elmlen = len;
						struct tlv e;
						if (tlv_parse_tl(&abuf, &elmlen, &e)) {
							memcpy(&ODAiList[ODAiListLen], &buf[len - elmlen], elmlen);
							ODAiListLen += elmlen;
						} else {
							PrintAndLogEx(WARNING, "Error SFI[%02x]. Creating input list for Offline Data Authentication error.", SFI);
						}
					} else {
						memcpy(&ODAiList[ODAiListLen], buf, len);
						ODAiListLen += len;
					}
					
					SFIoffline--;
				}
			}
		}
		
		break;
	}	
	
	// copy Input list for Offline Data Authentication
	if (ODAiListLen) {
		struct tlvdb *oda = tlvdb_fixed(0x21, ODAiListLen, ODAiList); // not a standard tag
		tlvdb_add(tlvRoot, oda); 
		PrintAndLogEx(NORMAL, "* Input list for Offline Data Authentication added to TLV. len=%d \n", ODAiListLen);
	}

	// get AIP
	uint16_t AIP = 0;
	const struct tlv *AIPtlv = tlvdb_get(tlvRoot, 0x82, NULL);	
	if (AIPtlv) {
		AIP = AIPtlv->value[0] + AIPtlv->value[1] * 0x100;
		PrintAndLogEx(NORMAL, "* * AIP=%04x", AIP);
	} else {
		PrintAndLogEx(ERR, "Can't found AIP.");
	}

	// SDA
	if (AIP & 0x0040) {
		PrintAndLogEx(NORMAL, "\n* SDA");
		trSDA(tlvRoot);
	}

	// DDA
	if (AIP & 0x0020) {
		PrintAndLogEx(NORMAL, "\n* DDA");		
		trDDA(channel, decodeTLV, tlvRoot);
	}	
	
	// transaction check

	// qVSDC
	if (TrType == TT_QVSDCMCHIP || TrType == TT_CDA){
		// 9F26: Application Cryptogram
		const struct tlv *AC = tlvdb_get(tlvRoot, 0x9F26, NULL);
		if (AC) {
			PrintAndLogEx(NORMAL, "\n--> qVSDC transaction.");
			PrintAndLogEx(NORMAL, "* AC path");
			
			// 9F36: Application Transaction Counter (ATC)
			const struct tlv *ATC = tlvdb_get(tlvRoot, 0x9F36, NULL);
			if (ATC) {
			
				// 9F10: Issuer Application Data - optional
				const struct tlv *IAD = tlvdb_get(tlvRoot, 0x9F10, NULL);

				// print AC data
				PrintAndLogEx(NORMAL, "ATC: %s", sprint_hex(ATC->value, ATC->len));
				PrintAndLogEx(NORMAL, "AC: %s", sprint_hex(AC->value, AC->len));
				if (IAD) {
					PrintAndLogEx(NORMAL, "IAD: %s", sprint_hex(IAD->value, IAD->len));
					
					if (IAD->len >= IAD->value[0] + 1) {
						PrintAndLogEx(NORMAL, "\tKey index:  0x%02x", IAD->value[1]);
						PrintAndLogEx(NORMAL, "\tCrypto ver: 0x%02x(%03d)", IAD->value[2], IAD->value[2]);
						PrintAndLogEx(NORMAL, "\tCVR:", sprint_hex(&IAD->value[3], IAD->value[0] - 2));
						struct tlvdb * cvr = tlvdb_fixed(0x20, IAD->value[0] - 2, &IAD->value[3]);
						TLVPrintFromTLVLev(cvr, 1);
					}
				} else {
					PrintAndLogEx(NORMAL, "WARNING: IAD not found.");
				}
				
			} else {
				PrintAndLogEx(WARNING, "Error AC: Application Transaction Counter (ATC) not found.");
			}
		}
	}
	
	// Mastercard M/CHIP
	if (GetCardPSVendor(AID, AIDlen) == CV_MASTERCARD && (TrType == TT_QVSDCMCHIP || TrType == TT_CDA)){
		const struct tlv *CDOL1 = tlvdb_get(tlvRoot, 0x8c, NULL);
		if (CDOL1 && GetCardPSVendor(AID, AIDlen) == CV_MASTERCARD) { // and m/chip transaction flag
			PrintAndLogEx(NORMAL, "\n--> Mastercard M/Chip transaction.");

			PrintAndLogEx(NORMAL, "* * Generate challenge");
			res = EMVGenerateChallenge(channel, true, buf, sizeof(buf), &len, &sw, tlvRoot);
			if (res) {
				PrintAndLogEx(WARNING, "Error GetChallenge. APDU error %4x", sw);
				dreturn(6);
			}
			if (len < 4) {
				PrintAndLogEx(WARNING, "Error GetChallenge. Wrong challenge length %d", len);
				dreturn(6);
			}
			
			// ICC Dynamic Number
			struct tlvdb * ICCDynN = tlvdb_fixed(0x9f4c, len, buf);
			tlvdb_add(tlvRoot, ICCDynN);
			if (decodeTLV) {
				PrintAndLogEx(NORMAL, "\n* * ICC Dynamic Number:");
				TLVPrintFromTLV(ICCDynN);
			}
			
			PrintAndLogEx(NORMAL, "* * Calc CDOL1");
			struct tlv *cdol_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x8c, NULL), tlvRoot, 0x01); // 0x01 - dummy tag
			if (!cdol_data_tlv) {
				PrintAndLogEx(WARNING, "Error: can't create CDOL1 TLV.");
				dreturn(6);
			}
			
			PrintAndLogEx(NORMAL, "CDOL1 data[%d]: %s", cdol_data_tlv->len, sprint_hex(cdol_data_tlv->value, cdol_data_tlv->len));
			
			PrintAndLogEx(NORMAL, "* * AC1");
			// EMVAC_TC + EMVAC_CDAREQ --- to get SDAD
			res = EMVAC(channel, true, (TrType == TT_CDA) ? EMVAC_TC + EMVAC_CDAREQ : EMVAC_TC, (uint8_t *)cdol_data_tlv->value, cdol_data_tlv->len, buf, sizeof(buf), &len, &sw, tlvRoot);
			
			if (res) {	
				PrintAndLogEx(NORMAL, "AC1 error(%d): %4x. Exit...", res, sw);
				dreturn(7);
			}
			
			if (decodeTLV)
				TLVPrintFromBuffer(buf, len);
			
			// CDA
			PrintAndLogEx(NORMAL, "\n* CDA:");
			struct tlvdb *ac_tlv = tlvdb_parse_multi(buf, len);
			res = trCDA(tlvRoot, ac_tlv, pdol_data_tlv, cdol_data_tlv);
			if (res) {	
				PrintAndLogEx(NORMAL, "CDA error (%d)", res);
			}
			
			free(ac_tlv);
			free(cdol_data_tlv);
			
			PrintAndLogEx(NORMAL, "\n* M/Chip transaction result:");
			// 9F27: Cryptogram Information Data (CID)
			const struct tlv *CID = tlvdb_get(tlvRoot, 0x9F27, NULL);
			if (CID) {
				emv_tag_dump(CID, stdout, 0);
				PrintAndLogEx(NORMAL, "------------------------------");
				if (CID->len > 0) {
					switch(CID->value[0] & EMVAC_AC_MASK){
						case EMVAC_AAC:
							PrintAndLogEx(NORMAL, "Transaction DECLINED.");
							break;
						case EMVAC_TC:
							PrintAndLogEx(NORMAL, "Transaction approved OFFLINE.");
							break;
						case EMVAC_ARQC:
							PrintAndLogEx(NORMAL, "Transaction approved ONLINE.");
							break;
						default:
							PrintAndLogEx(WARNING, "Error: CID transaction code error %2x", CID->value[0] & EMVAC_AC_MASK);
							break;
					}
				} else {
					PrintAndLogEx(WARNING, "Error: Wrong CID length %d", CID->len);
				}
			} else {
				PrintAndLogEx(WARNING, "Error: CID(9F27) not found.");
			}
		
		}
	}
		
	// MSD
	if (AIP & 0x8000 && TrType == TT_MSD) { 
		PrintAndLogEx(NORMAL, "\n--> MSD transaction.");
		
		PrintAndLogEx(NORMAL, "* MSD dCVV path. Check dCVV");

		const struct tlv *track2 = tlvdb_get(tlvRoot, 0x57, NULL);
		if (track2) {
			PrintAndLogEx(NORMAL, "Track2: %s", sprint_hex(track2->value, track2->len));

			struct tlvdb *dCVV = GetdCVVRawFromTrack2(track2);
			PrintAndLogEx(NORMAL, "dCVV raw data:");
			TLVPrintFromTLV(dCVV);
			
			if (GetCardPSVendor(AID, AIDlen) == CV_MASTERCARD) {
				PrintAndLogEx(NORMAL, "\n* Mastercard calculate UDOL");

				// UDOL (9F69)
				const struct tlv *UDOL = tlvdb_get(tlvRoot, 0x9F69, NULL);
				// UDOL(9F69) default: 9F6A (Unpredictable number) 4 bytes
				const struct tlv defUDOL = {
					.tag = 0x01,
					.len = 3,
					.value = (uint8_t *)"\x9f\x6a\x04",
				};
				if (!UDOL)
					PrintAndLogEx(NORMAL, "Use default UDOL.");

				struct tlv *udol_data_tlv = dol_process(UDOL ? UDOL : &defUDOL, tlvRoot, 0x01); // 0x01 - dummy tag
				if (!udol_data_tlv) {
					PrintAndLogEx(WARNING, "Error: can't create UDOL TLV.");
					dreturn(8);
				}

				PrintAndLogEx(NORMAL, "UDOL data[%d]: %s", udol_data_tlv->len, sprint_hex(udol_data_tlv->value, udol_data_tlv->len));
				
				PrintAndLogEx(NORMAL, "\n* Mastercard compute cryptographic checksum(UDOL)");
				
				res = MSCComputeCryptoChecksum(channel, true, (uint8_t *)udol_data_tlv->value, udol_data_tlv->len, buf, sizeof(buf), &len, &sw, tlvRoot);
				if (res) {
					PrintAndLogEx(WARNING, "Error Compute Crypto Checksum. APDU error %4x", sw);
					free(udol_data_tlv);
					dreturn(9);
				}
				
				// Mastercard compute cryptographic checksum result
				TLVPrintFromBuffer(buf, len);
				PrintAndLogEx(NORMAL, "");

				free(udol_data_tlv);

			}
		} else {
			PrintAndLogEx(WARNING, "Error MSD: Track2 data not found.");
		}
	}

	// VSDC
	if (GetCardPSVendor(AID, AIDlen) == CV_VISA && (TrType == TT_VSDC || TrType == TT_CDA)){
		PrintAndLogEx(NORMAL, "\n--> VSDC transaction.");
		
		PrintAndLogEx(NORMAL, "* * Calc CDOL1");
		struct tlv *cdol1_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x8c, NULL), tlvRoot, 0x01); // 0x01 - dummy tag
		if (!cdol1_data_tlv) {
			PrintAndLogEx(WARNING, "Error: can't create CDOL1 TLV.");
			dreturn(6);
		}
		
		PrintAndLogEx(NORMAL, "CDOL1 data[%d]: %s", cdol1_data_tlv->len, sprint_hex(cdol1_data_tlv->value, cdol1_data_tlv->len));
		
		PrintAndLogEx(NORMAL, "* * AC1");
		// EMVAC_TC + EMVAC_CDAREQ --- to get SDAD
		res = EMVAC(channel, true, (TrType == TT_CDA) ? EMVAC_TC + EMVAC_CDAREQ : EMVAC_TC, (uint8_t *)cdol1_data_tlv->value, cdol1_data_tlv->len, buf, sizeof(buf), &len, &sw, tlvRoot);
		
		if (res) {	
			PrintAndLogEx(NORMAL, "AC1 error(%d): %4x. Exit...", res, sw);
			dreturn(7);
		}

		// process Format1 (0x80) and print Format2 (0x77)
		ProcessACResponseFormat1(tlvRoot, buf, len, decodeTLV);

		uint8_t CID = 0;
		tlvdb_get_uint8(tlvRoot, 0x9f27, &CID);

		// AC1 print result
		PrintAndLog("");
		if ((CID & EMVAC_AC_MASK) == EMVAC_AAC)		PrintAndLogEx(INFO, "AC1 result: AAC (Transaction declined)");
		if ((CID & EMVAC_AC_MASK) == EMVAC_TC)		PrintAndLogEx(INFO, "AC1 result: TC (Transaction approved)");
		if ((CID & EMVAC_AC_MASK) == EMVAC_ARQC)	PrintAndLogEx(INFO, "AC1 result: ARQC (Online authorisation requested)");
		if ((CID & EMVAC_AC_MASK) == EMVAC_AC_MASK)	PrintAndLogEx(INFO, "AC1 result: RFU");

		// decode Issuer Application Data (IAD)
		uint8_t CryptoVersion = 0;
		const struct tlv *IAD = tlvdb_get(tlvRoot, 0x9f10, NULL);
		if (IAD && (IAD->len > 1)) {
			PrintAndLogEx(NORMAL, "\n* * Issuer Application Data (IAD):");
			uint8_t VDDlen = IAD->value[0]; // Visa discretionary data length
			uint8_t IDDlen = 0;             // Issuer discretionary data length
			PrintAndLogEx(NORMAL, "IAD length: %d", IAD->len);
			PrintAndLogEx(NORMAL, "VDDlen: %d", VDDlen);
			if (VDDlen < IAD->len - 1) 
				IDDlen = IAD->value[VDDlen + 1];
			PrintAndLogEx(NORMAL, "IDDlen: %d", IDDlen);
						
			uint8_t DerivKeyIndex = IAD->value[1];
			CryptoVersion = IAD->value[2];

			PrintAndLogEx(NORMAL, "CryptoVersion: %d", CryptoVersion);
			PrintAndLogEx(NORMAL, "DerivKeyIndex: %d", DerivKeyIndex);

			// Card Verification Results (CVR) decode
			if ((VDDlen - 2) > 0) {
				uint8_t CVRlen = IAD->value[3];
				if (CVRlen == (VDDlen - 2 - 1)) {
					PrintAndLogEx(NORMAL, "CVR length: %d", CVRlen);
					PrintAndLogEx(NORMAL, "CVR: %s", sprint_hex(&IAD->value[4], CVRlen));
				} else {
					PrintAndLogEx(NORMAL, "Wrong CVR length! CVR: %s", sprint_hex(&IAD->value[3], VDDlen - 2));
				}
			}
			if (IDDlen)
				PrintAndLogEx(NORMAL, "IDD: %s", sprint_hex(&IAD->value[VDDlen + 1], IDDlen));		
		} else {
			PrintAndLogEx(NORMAL, "Issuer Application Data (IAD) not found.");
		}
		
		PrintAndLogEx(NORMAL, "\n* * Processing online request");

		// authorization response code from acquirer
		const char HostResponse[] = "00"; // 0x3030
		size_t HostResponseLen = sizeof(HostResponse) - 1;
		PrintAndLogEx(NORMAL, "Host Response: `%s`", HostResponse);
		tlvdb_change_or_add_node(tlvRoot, 0x8a, HostResponseLen, (const unsigned char *)HostResponse);		
		
		if (CryptoVersion == 10) {
			PrintAndLogEx(NORMAL, "\n* * Generate ARPC");
			
			// Application Cryptogram (AC)
			const struct tlv *AC = tlvdb_get(tlvRoot, 0x9f26, NULL);
			if (AC && (AC->len > 0)) {
				PrintAndLogEx(NORMAL, "AC: %s", sprint_hex(AC->value, AC->len));

				size_t rawARPClen = AC->len;
				uint8_t rawARPC[rawARPClen];
				memcpy(rawARPC, AC->value, AC->len);
				for (int i = 0; (i < HostResponseLen) && (i < rawARPClen); i++)
					rawARPC[i] ^= HostResponse[i];
				PrintAndLogEx(NORMAL, "raw ARPC: %s", sprint_hex(rawARPC, rawARPClen));
				
				// here must be calculation of ARPC, but we dont know a bank keys.
				PrintAndLogEx(NORMAL, "ARPC: n/a");
				
			} else {
				PrintAndLogEx(NORMAL, "Application Cryptogram (AC) not found.");
			}

			// here must be external authenticate, but we dont know ARPC
			
		}
		

		// needs to send AC2 command (res == ARQC)
		if ((CID & EMVAC_AC_MASK) == EMVAC_ARQC) {
			PrintAndLogEx(NORMAL, "\n* * Calc CDOL2");
			struct tlv *cdol2_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x8d, NULL), tlvRoot, 0x01); // 0x01 - dummy tag
			if (!cdol2_data_tlv) {
				PrintAndLogEx(WARNING, "Error: can't create CDOL2 TLV.");
				dreturn(6);
			}
			
			PrintAndLogEx(NORMAL, "CDOL2 data[%d]: %s", cdol2_data_tlv->len, sprint_hex(cdol2_data_tlv->value, cdol2_data_tlv->len));
			
			//PrintAndLogEx(NORMAL, "* * AC2");
			
			
			// here must be AC2, but we dont make external authenticate (
		
/*			// AC2
			PRINT_INDENT(level);
			if ((CID & EMVAC_AC2_MASK) == EMVAC_AAC2)	fprintf(f, "\tAC2: AAC (Transaction declined)\n");
			if ((CID & EMVAC_AC2_MASK) == EMVAC_TC2)	fprintf(f, "\tAC2: TC (Transaction approved)\n");
			if ((CID & EMVAC_AC2_MASK) == EMVAC_ARQC2)	fprintf(f, "\tAC2: not requested (ARQC)\n");
			if ((CID & EMVAC_AC2_MASK) == EMVAC_AC2_MASK)	fprintf(f, "\tAC2: RFU\n");
*/
		}
		
	}
	
	DropFieldEx( channel );
	
	// Destroy TLV's
	free(pdol_data_tlv);
	tlvdb_free(tlvSelect);
	tlvdb_free(tlvRoot);

	PrintAndLogEx(NORMAL, "\n* Transaction completed.");
	return 0;
}

int CmdEMVScan(const char *cmd) {
	uint8_t AID[APDU_AID_LEN] = {0};
	size_t AIDlen = 0;
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res;
	json_t *root;
	json_error_t error;

	CLIParserInit("emv scan", 
		"Scan EMV card and save it contents to a file.", 
		"It executes EMV contactless transaction and saves result to a file which can be used for emulation\n"
			"Usage:\n\temv scan -at -> scan MSD transaction mode and show APDU and TLV\n"
			"\temv scan -c -> scan CDA transaction mode\n");

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("aA",  "apdu",     "show APDU reqests and responses."),
		arg_lit0("tT",  "tlv",      "TLV decode results."),
		arg_lit0("eE",  "extract",  "Extract TLV elements and fill Application Data"),
		arg_lit0("jJ",  "jload",    "Load transaction parameters from `emv/defparams.json` file."),
		arg_rem("By default:",      "Transaction type - MSD"),
		arg_lit0("vV",  "qvsdc",    "Transaction type - qVSDC or M/Chip."),
		arg_lit0("cC",  "qvsdccda", "Transaction type - qVSDC or M/Chip plus CDA (SDAD generation)."),
		arg_lit0("xX",  "vsdc",     "Transaction type - VSDC. For test only. Not a standart behavior."),
		arg_lit0("gG",  "acgpo",    "VISA. generate AC from GPO."),
		arg_lit0("mM",  "merge",    "Merge output file with card's data. (warning: the file may be corrupted!)"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_str1(NULL,  NULL,		"output.json", "JSON output file name"),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	bool showAPDU = arg_get_lit(1);
	bool decodeTLV = arg_get_lit(2);
	bool extractTLVElements = arg_get_lit(3);
	bool paramLoadJSON = arg_get_lit(4);

	enum TransactionType TrType = TT_MSD;
	if (arg_get_lit(6))
		TrType = TT_QVSDCMCHIP;
	if (arg_get_lit(7))
		TrType = TT_CDA;
	if (arg_get_lit(8))
		TrType = TT_VSDC;

	bool GenACGPO = arg_get_lit(9);
	bool MergeJSON = arg_get_lit(10);
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(11))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	uint8_t psenum = (channel == ECC_CONTACT) ? 1 : 2;
	uint8_t relfname[250] ={0};
	char *crelfname = (char *)relfname;
	int relfnamelen = 0;
	CLIGetStrWithReturn(12, relfname, &relfnamelen);
	CLIParserFree();
	
#ifndef WITH_SMARTCARD
	// not compiled with smartcard functionality,  we need to exit
	if ( channel == ECC_CONTACT ) {
		PrintAndLogEx(WARNING, "PM3 Client is not compiled with support for SMARTCARD. Exiting.");
		return 0;
	}
#endif	

	SetAPDULogging(showAPDU);
	
	// current path + file name
	if (!strstr(crelfname, ".json"))
		strcat(crelfname, ".json");
	char fname[strlen(get_my_executable_directory()) + strlen(crelfname) + 1];
	strcpy(fname, get_my_executable_directory());
	strcat(fname, crelfname);

	if (MergeJSON) {
		root = json_load_file(fname, 0, &error);
		if (!root) {
			PrintAndLogEx(ERR, "Json error on line %d: %s", error.line, error.text);
			return 1; 
		}
		
		if (!json_is_object(root)) {
			PrintAndLogEx(ERR, "Invalid json format. root must be an object.");
			return 1; 
		}
	} else {
		root = json_object();
	}

	// drop field at start
	DropFieldEx( channel );

	JsonSaveStr(root, "$.File.Created", "proxmark3 `emv scan`");
	
	if (channel == ECC_CONTACTLESS) {
		// iso 14443 select
		PrintAndLogEx(NORMAL, "--> GET UID, ATS.");
		
		iso14a_card_select_t card;
		if (Hf14443_4aGetCardData(&card)) {
			return 2;
		}
		
		JsonSaveStr(root, "$.Card.Contactless.Communication", "iso14443-4a");
		JsonSaveBufAsHex(root, "$.Card.Contactless.UID", (uint8_t *)&card.uid, card.uidlen);
		JsonSaveHex(root, "$.Card.Contactless.ATQA", card.atqa[0] + (card.atqa[1] << 2), 2);
		JsonSaveHex(root, "$.Card.Contactless.SAK", card.sak, 0);
		JsonSaveBufAsHex(root, "$.Card.Contactless.ATS", (uint8_t *)card.ats, card.ats_len);
	} else {
		PrintAndLogEx(NORMAL, "--> GET ATR.");
		
		smart_card_atr_t card;
		smart_select(true, &card);
		
		JsonSaveStr(root, "$.Card.Contact.Communication", "iso7816");
		JsonSaveBufAsHex(root, "$.Card.Contact.ATR", (uint8_t *)card.atr, card.atr_len);
	}
	
	// init applets list tree
	const char *al = "Applets list";
	struct tlvdb *tlvSelect = tlvdb_fixed(1, strlen(al), (const unsigned char *)al);
	
	// EMV PPSE
	PrintAndLogEx(NORMAL, "--> PPSE.");
	res = EMVSelectPSE(channel, true, true, 2, buf, sizeof(buf), &len, &sw);

	if (!res && sw == 0x9000){
		if (decodeTLV)
			TLVPrintFromBuffer(buf, len);
		
		JsonSaveBufAsHex(root, "$.PPSE.AID", (uint8_t *)"2PAY.SYS.DDF01", 14);
		
		struct tlvdb *fci = tlvdb_parse_multi(buf, len);
		if (extractTLVElements)
			JsonSaveTLVTree(root, root, "$.PPSE.FCITemplate", fci);
		else
			JsonSaveTLVTreeElm(root, "$.PPSE.FCITemplate", fci, true, true, false);
		JsonSaveTLVValue(root, "$.Application.KernelID", tlvdb_find_full(fci, 0x9f2a));
		tlvdb_free(fci);
	}

	res = EMVSearchPSE(channel, false, true, psenum, decodeTLV, tlvSelect);

	// check PPSE and select application id
	if (!res) {	
		TLVPrintAIDlistFromSelectTLV(tlvSelect);		
	} else {
		// EMV SEARCH with AID list
		SetAPDULogging(false);
		PrintAndLogEx(NORMAL, "--> AID search.");
		if (EMVSearch(channel, false, true, decodeTLV, tlvSelect)) {
			PrintAndLogEx(ERR, "Can't found any of EMV AID. Exit...");
			tlvdb_free(tlvSelect);
			DropFieldEx( channel );
			return 3;
		}

		// check search and select application id
		TLVPrintAIDlistFromSelectTLV(tlvSelect);
	}

	// EMV SELECT application
	SetAPDULogging(showAPDU);
	EMVSelectApplication(tlvSelect, AID, &AIDlen);

	tlvdb_free(tlvSelect);

	if (!AIDlen) {
		PrintAndLogEx(INFO, "Can't select AID. EMV AID not found. Exit...");
		DropFieldEx( channel );
		return 4;
	}

	JsonSaveBufAsHex(root, "$.Application.AID", AID, AIDlen);
	
	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	struct tlvdb *tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);

	// EMV SELECT applet

	PrintAndLogEx(NORMAL, "\n-->Selecting AID:%s.", sprint_hex_inrow(AID, AIDlen));
	SetAPDULogging(showAPDU);
	res = EMVSelect(channel, false, true, AID, AIDlen, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	if (res) {	
		PrintAndLogEx(ERR, "Can't select AID (%d). Exit...", res);
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 5;
	}
	
	if (decodeTLV)
		TLVPrintFromBuffer(buf, len);

	// save mode
	if (tlvdb_get(tlvRoot, 0x9f38, NULL)) {
		JsonSaveStr(root, "$.Application.Mode", TransactionTypeStr[TrType]);
	}

	struct tlvdb *fci = tlvdb_parse_multi(buf, len);
	if (extractTLVElements)
		JsonSaveTLVTree(root, root, "$.Application.FCITemplate", fci);
	else
		JsonSaveTLVTreeElm(root, "$.Application.FCITemplate", fci, true, true, false);
	tlvdb_free(fci);

	// create transaction parameters
	PrintAndLogEx(NORMAL, "-->Init transaction parameters.");
	InitTransactionParameters(tlvRoot, paramLoadJSON, TrType, GenACGPO);
	
	PrintAndLogEx(NORMAL, "-->Calc PDOL.");
	struct tlv *pdol_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x9f38, NULL), tlvRoot, 0x83);
	if (!pdol_data_tlv){
		PrintAndLogEx(ERR, "Can't create PDOL TLV.");
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 6;
	}
	
	size_t pdol_data_tlv_data_len;
	unsigned char *pdol_data_tlv_data = tlv_encode(pdol_data_tlv, &pdol_data_tlv_data_len);
	if (!pdol_data_tlv_data) {
		PrintAndLogEx(ERR, "Can't create PDOL data.");
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 6;
	}
	PrintAndLogEx(INFO, "PDOL data[%d]: %s", pdol_data_tlv_data_len, sprint_hex(pdol_data_tlv_data, pdol_data_tlv_data_len));

	PrintAndLogEx(INFO, "-->GPO.");
	res = EMVGPO(channel, true, pdol_data_tlv_data, pdol_data_tlv_data_len, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	free(pdol_data_tlv_data);
	free(pdol_data_tlv);
	
	if (res) {	
		PrintAndLogEx(ERR, "GPO error(%d): %4x. Exit...", res, sw);
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 7;
	}
	ProcessGPOResponseFormat1(tlvRoot, buf, len, decodeTLV);
	
	struct tlvdb *gpofci = tlvdb_parse_multi(buf, len);
	if (extractTLVElements)
		JsonSaveTLVTree(root, root, "$.Application.GPO", gpofci);
	else
		JsonSaveTLVTreeElm(root, "$.Application.GPO", gpofci, true, true, false);

	JsonSaveTLVValue(root, "$.ApplicationData.AIP", tlvdb_find_full(gpofci, 0x82));
	JsonSaveTLVValue(root, "$.ApplicationData.AFL", tlvdb_find_full(gpofci, 0x94));

	tlvdb_free(gpofci);

	PrintAndLogEx(INFO, "-->Read records from AFL.");
	const struct tlv *AFL = tlvdb_get(tlvRoot, 0x94, NULL);
	
	while(AFL && AFL->len) {
		if (AFL->len % 4) {
			PrintAndLogEx(ERR, "Wrong AFL length: %d", AFL->len);
			break;
		}

		json_t *sfijson = json_path_get(root, "$.Application.Records");
		if (!sfijson) {
			json_t *app = json_path_get(root, "$.Application");
			json_object_set_new(app, "Records", json_array());
			
			sfijson = json_path_get(root, "$.Application.Records");
		}
		if (!json_is_array(sfijson)) {
			PrintAndLogEx(ERR, "Internal logic error. `$.Application.Records` is not an array.");
			break;
		}
		for (int i = 0; i < AFL->len / 4; i++) {
			uint8_t SFI = AFL->value[i * 4 + 0] >> 3;
			uint8_t SFIstart = AFL->value[i * 4 + 1];
			uint8_t SFIend = AFL->value[i * 4 + 2];
			uint8_t SFIoffline = AFL->value[i * 4 + 3];
			
			PrintAndLogEx(INFO, "--->SFI[%02x] start:%02x end:%02x offline:%02x", SFI, SFIstart, SFIend, SFIoffline);
			if (SFI == 0 || SFI == 31 || SFIstart == 0 || SFIstart > SFIend) {
				PrintAndLogEx(ERR, "SFI ERROR! Skipped...");
				continue;
			}
			
			for(int n = SFIstart; n <= SFIend; n++) {
				PrintAndLogEx(INFO, "---->SFI[%02x] %d", SFI, n);
				
				res = EMVReadRecord(channel, true, SFI, n, buf, sizeof(buf), &len, &sw, tlvRoot);
				if (res) {
					PrintAndLogEx(ERR, "SFI[%02x]. APDU error %4x", SFI, sw);
					continue;
				}
				
				if (decodeTLV) {
					TLVPrintFromBuffer(buf, len);
					PrintAndLog("");
				}
				
				json_t *jsonelm = json_object();
				json_array_append_new(sfijson, jsonelm);

				JsonSaveHex(jsonelm, "SFI", SFI, 1);
				JsonSaveHex(jsonelm, "RecordNum", n, 1);
				JsonSaveHex(jsonelm, "Offline", SFIoffline, 1);
				
				struct tlvdb *rsfi = tlvdb_parse_multi(buf, len);
				if (extractTLVElements)
					JsonSaveTLVTree(root, jsonelm, "$.Data", rsfi);
				else
					JsonSaveTLVTreeElm(jsonelm, "$.Data", rsfi, true, true, false);
				tlvdb_free(rsfi);
			}
		}
		
		break;
	}
	
	// getting certificates
	if (tlvdb_get(tlvRoot, 0x90, NULL)) {
		PrintAndLogEx(INFO, "-->Recovering certificates.");
		PKISetStrictExecution(false);
		RecoveryCertificates(tlvRoot, root);
		PKISetStrictExecution(true);
	}
	
	// free tlv object
	tlvdb_free(tlvRoot);

	DropFieldEx( channel );
	
	res = json_dump_file(root, fname, JSON_INDENT(2));
	if (res) {
		PrintAndLogEx(ERR, "Can't save the file: %s", fname);
		return 200;
	}
	PrintAndLogEx(SUCCESS, "File `%s` saved.", fname);
	
	// free json object
	json_decref(root);
	
	return 0;
}

int CmdEMVList(const char *Cmd) {
	return CmdTraceList("7816");
}

int CmdEMVTest(const char *cmd) {
	return ExecuteCryptoTests(true);
}

int CmdEMVRoca(const char *cmd) {
	uint8_t AID[APDU_AID_LEN] = {0};
	size_t AIDlen = 0;
	uint8_t buf[APDU_RES_LEN] = {0};
	size_t len = 0;
	uint16_t sw = 0;
	int res;
		
	CLIParserInit("emv roca", 
		"Tries to extract public keys and run the ROCA test against them.\n", 
		"Usage:\n"
			"\temv roca -w -> select --CONTACT-- card and run test\n"
			"\temv roca -> select --CONTACTLESS-- card and run test\n"
			);

	void* argtable[] = {
		arg_param_begin,
		arg_lit0("tT",  "selftest",   "self test"),
		arg_lit0("wW",  "wired",   "Send data via contact (iso7816) interface. Contactless interface set by default."),
		arg_param_end
	};
	CLIExecWithReturn(cmd, argtable, true);
	
	EMVCommandChannel channel = ECC_CONTACTLESS;
	if (arg_get_lit(1))
		return roca_self_test();

	if (arg_get_lit(2))
		channel = ECC_CONTACT;
	PrintChannel(channel);
	CLIParserFree();
	
#ifndef WITH_SMARTCARD
	// not compiled with smartcard functionality,  we need to exit
	if ( channel == ECC_CONTACT ) {
		PrintAndLogEx(WARNING, "PM3 Client is not compiled with support for SMARTCARD. Exiting.");
		return 0;
	}
#endif	

	// select card
	uint8_t psenum = (channel == ECC_CONTACT) ? 1 : 2;
	
	SetAPDULogging(false);
	
	// init applets list tree
	const char *al = "Applets list";
	struct tlvdb *tlvSelect = tlvdb_fixed(1, strlen(al), (const unsigned char *)al);

	// EMV PPSE
	PrintAndLogEx(NORMAL, "--> PPSE.");
	res = EMVSearchPSE(channel, false, true, psenum, false, tlvSelect);

	// check PPSE and select application id
	if (!res) {	
		TLVPrintAIDlistFromSelectTLV(tlvSelect);		
	} else {
		// EMV SEARCH with AID list
		PrintAndLogEx(NORMAL, "--> AID search.");
		if (EMVSearch(channel, false, true, false, tlvSelect)) {
			PrintAndLogEx(ERR, "Can't found any of EMV AID. Exit...");
			tlvdb_free(tlvSelect);
			DropFieldEx( channel );
			return 3;
		}

		// check search and select application id
		TLVPrintAIDlistFromSelectTLV(tlvSelect);
	}

	// EMV SELECT application
	SetAPDULogging(false);
	EMVSelectApplication(tlvSelect, AID, &AIDlen);

	tlvdb_free(tlvSelect);

	if (!AIDlen) {
		PrintAndLogEx(INFO, "Can't select AID. EMV AID not found. Exit...");
		DropFieldEx( channel );
		return 4;
	}

	// Init TLV tree
	const char *alr = "Root terminal TLV tree";
	struct tlvdb *tlvRoot = tlvdb_fixed(1, strlen(alr), (const unsigned char *)alr);

	// EMV SELECT applet
	PrintAndLogEx(NORMAL, "\n-->Selecting AID:%s.", sprint_hex_inrow(AID, AIDlen));
	res = EMVSelect(channel, false, true, AID, AIDlen, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	if (res) {	
		PrintAndLogEx(ERR, "Can't select AID (%d). Exit...", res);
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 5;
	}

	PrintAndLog("\n* Init transaction parameters.");
	InitTransactionParameters(tlvRoot, true, TT_QVSDCMCHIP, false);

	PrintAndLogEx(NORMAL, "-->Calc PDOL.");
	struct tlv *pdol_data_tlv = dol_process(tlvdb_get(tlvRoot, 0x9f38, NULL), tlvRoot, 0x83);
	if (!pdol_data_tlv){
		PrintAndLogEx(ERR, "Can't create PDOL TLV.");
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 6;
	}
	
	size_t pdol_data_tlv_data_len;
	unsigned char *pdol_data_tlv_data = tlv_encode(pdol_data_tlv, &pdol_data_tlv_data_len);
	if (!pdol_data_tlv_data) {
		PrintAndLogEx(ERR, "Can't create PDOL data.");
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 6;
	}
	PrintAndLogEx(INFO, "PDOL data[%d]: %s", pdol_data_tlv_data_len, sprint_hex(pdol_data_tlv_data, pdol_data_tlv_data_len));

	PrintAndLogEx(INFO, "-->GPO.");
	res = EMVGPO(channel, true, pdol_data_tlv_data, pdol_data_tlv_data_len, buf, sizeof(buf), &len, &sw, tlvRoot);
	
	free(pdol_data_tlv_data);
	free(pdol_data_tlv);
	
	if (res) {	
		PrintAndLogEx(ERR, "GPO error(%d): %4x. Exit...", res, sw);
		tlvdb_free(tlvRoot);
		DropFieldEx( channel );
		return 7;
	}
	ProcessGPOResponseFormat1(tlvRoot, buf, len, false);
	
	PrintAndLogEx(INFO, "-->Read records from AFL.");
	const struct tlv *AFL = tlvdb_get(tlvRoot, 0x94, NULL);
	
	while(AFL && AFL->len) {
		if (AFL->len % 4) {
			PrintAndLogEx(ERR, "Wrong AFL length: %d", AFL->len);
			break;
		}

		for (int i = 0; i < AFL->len / 4; i++) {
			uint8_t SFI = AFL->value[i * 4 + 0] >> 3;
			uint8_t SFIstart = AFL->value[i * 4 + 1];
			uint8_t SFIend = AFL->value[i * 4 + 2];
			uint8_t SFIoffline = AFL->value[i * 4 + 3];
			
			PrintAndLogEx(INFO, "--->SFI[%02x] start:%02x end:%02x offline:%02x", SFI, SFIstart, SFIend, SFIoffline);
			if (SFI == 0 || SFI == 31 || SFIstart == 0 || SFIstart > SFIend) {
				PrintAndLogEx(ERR, "SFI ERROR! Skipped...");
				continue;
			}
			
			for(int n = SFIstart; n <= SFIend; n++) {
				PrintAndLogEx(INFO, "---->SFI[%02x] %d", SFI, n);
				
				res = EMVReadRecord(channel, true, SFI, n, buf, sizeof(buf), &len, &sw, tlvRoot);
				if (res) {
					PrintAndLogEx(ERR, "SFI[%02x]. APDU error %4x", SFI, sw);
					continue;
				}
			}
		}
		
		break;
	}

	// getting certificates
 	if (tlvdb_get(tlvRoot, 0x90, NULL)) {
		PrintAndLogEx(INFO, "-->Recovering certificates.");
		PKISetStrictExecution(false);

		struct emv_pk *pk = get_ca_pk(tlvRoot);
		if (!pk) {
			PrintAndLogEx(ERR, "ERROR: Key not found. Exit.");
			goto out;
		}

		struct emv_pk *issuer_pk = emv_pki_recover_issuer_cert(pk, tlvRoot);
		if (!issuer_pk) {
			emv_pk_free(pk);
			PrintAndLogEx(WARNING, "WARNING: Issuer certificate not found. Exit.");
			goto out;
		}
	
		PrintAndLogEx(SUCCESS, "Issuer PK recovered. RID %s IDX %02hhx CSN %s",
				sprint_hex(issuer_pk->rid, 5),
				issuer_pk->index,
				sprint_hex(issuer_pk->serial, 3)
				);


		struct emv_pk *icc_pk = emv_pki_recover_icc_cert(issuer_pk, tlvRoot, NULL);
		if (!icc_pk) {
			emv_pk_free(pk);
			emv_pk_free(issuer_pk);
			PrintAndLogEx(WARNING, "WARNING: ICC certificate not found. Exit.");
			goto out;
		}
		PrintAndLogEx(SUCCESS, "ICC PK recovered. RID %s IDX %02hhx CSN %s\n",
				sprint_hex(icc_pk->rid, 5),
				icc_pk->index,
				sprint_hex(icc_pk->serial, 3)
				);
		
		PrintAndLogEx(INFO, "ICC pk modulus: %s", sprint_hex_inrow(icc_pk->modulus, icc_pk->mlen));
		
		//	icc_pk->exp, icc_pk->elen
		//	icc_pk->modulus, icc_pk->mlen
		if (icc_pk->elen > 0 && icc_pk->mlen > 0) {
			if (emv_rocacheck(icc_pk->modulus, icc_pk->mlen, true)) {
				PrintAndLogEx(INFO, "ICC pk is a subject to ROCA vulnerability, insecure..");
			} else {
				PrintAndLogEx(INFO, "ICC pk is OK(");
			}
		}		
		
		PKISetStrictExecution(true);
	}

out:
	
	// free tlv object
	tlvdb_free(tlvRoot);

	DropFieldEx( channel );
	return 0;
}

static command_t CommandTable[] =  {
	{"help",		CmdHelp,						1,	"This help"},
	{"exec",		CmdEMVExec,						0,	"Executes EMV contactless transaction."},
	{"pse",			CmdEMVPPSE,						0,	"Execute PPSE. It selects 2PAY.SYS.DDF01 or 1PAY.SYS.DDF01 directory."},
	{"search",		CmdEMVSearch,					0,	"Try to select all applets from applets list and print installed applets."},
	{"select",		CmdEMVSelect,					0,	"Select applet."},
	{"gpo",			CmdEMVGPO,						0,	"Execute GetProcessingOptions."},
	{"readrec",		CmdEMVReadRecord,				0,	"Read files from card."},
	{"genac",		CmdEMVAC,						0,	"Generate ApplicationCryptogram."},
	{"challenge",	CmdEMVGenerateChallenge,		0,	"Generate challenge."},
	{"intauth",		CmdEMVInternalAuthenticate,		0,	"Internal authentication."},
	{"scan",		CmdEMVScan,						0,	"Scan EMV card and save it contents to json file for emulator."},
	{"test",		CmdEMVTest,						0,	"Crypto logic test."},
	/*
	{"getrng",		CmdEMVGetrng,	  				0, "get random number from terminal"}, 
	{"eload",		CmdEmvELoad, 	  				0, "load EMV tag into device"},
	{"dump",		CmdEmvDump,	  					0, "dump EMV tag values"},
	{"sim",			CmdEmvSim,	  					0, "simulate EMV tag"},
	{"clone",		CmdEmvClone,	  				0, "clone an EMV tag"}, 
	*/
	{"list",		CmdEMVList,	  					0, "[Deprecated] List ISO7816 history"}, 
	{"roca",		CmdEMVRoca,	  					0, "Extract public keys and run ROCA test"}, 
	{NULL, NULL, 0, NULL}
};

int CmdEMV(const char *Cmd) {
	clearCommandBuffer();
	CmdsParse(CommandTable, Cmd);
	return 0;
}

int CmdHelp(const char *Cmd) {
	CmdsHelp(CommandTable);
	return 0;
}