myvtm/DevAdapter/include/CardAssist.cpp

#include "stdafx.h"
#include <algorithm>
//CSimpleStringA<T> ambigulous

#ifdef RVC_OS_WIN

#define _ATL_NO_AUTOMATIC_NAMESPACE
#include <atltime.h>

#endif // RVC_OS_WIN

#include "CardAssist.h"
#include "SpBase.h"


char TTtmpxx[1024];
char TtestIC[1024];

bool compare_icdata (ICData d1,ICData d2)
{
	unsigned int i1 = (d1.tag[0]<<8)+d1.tag[1];
	unsigned int i2 = (d2.tag[0]<<8)+d2.tag[1];
	return (i1 < i2);
}
bool IsSamePositionSet(LPBYTE p1,LPBYTE p2,int len)
{
	int i = 0;
	while (i < len) {
		if ((*(p1 + i) & *(p2 + i)) != 0) {
			return true;
		}
		i++;
	}
	return false;
}
bool IsDoubleByteFlag(BYTE data)
{
	if ((data&0x1f) == 0x1f)
		return true;
	else
		return false;
}
bool IsForm(LPBYTE data,int flagLen)
{
	if (((*data)&0x20) == 0x20)
		return true;
	else
		return false;
	//if (flagLen == 1)
	//{
	//	if (*data == 0x6f || *data == 0xa5 || *data == 0x70 || *data == 0x61
	//		||*data == 0x73)
	//		return true;
	//}else if (flagLen == 2)
	//{
	//	if ((*data == 0xbf && *(data+1) == 0x0c)
	//		)
	//		return true;
	//}
	//return false;
}

int SplitICData(vector<ICData>& vResult, LPBYTE* origData, int start, int dataLen, int level , int origDataLen)
{
	//Dbg("to split IC Data size [%d],start[%d],dataLen[%d],level[%d]",vResult.size(),start,dataLen,level);
	//Dbg("%x%x",*((*origData)+start),*((*origData)+start+1));
	//ZeroMemory(Ttmpxx,sizeof(Ttmpxx));
	LPBYTE pData = *origData;
	DWORD len,tagLen,lenLen;
	len=tagLen=lenLen=0;
	int tmpDataStart = 0;
	int tagNum = 0;
	do
	{
		if (start >= origDataLen - 1)
		{
			Dbg("Wrong start %d,%d,%d", start, origDataLen,dataLen);
			return 0;
		}
		//Dbg("%x,%d,%d", pData[start],start,dataLen);//oiltest 20160107
		if (!IsDoubleByteFlag(pData[start]))
		{
			tagLen = 1;
			BYTE dd = DATALENFLAG;
			BYTE dd2 = pData[start+tagLen]&DATALENFLAG;
			if (DATALENFLAG == (pData[start+tagLen]&DATALENFLAG))
			{//长度为'8x'表示此字节表示长度所占的字节
				lenLen = pData[start+tagLen]&DATALENVALUE;
				len = 0;
				memcpy(&len, pData+start+tagLen+1,lenLen);
				lenLen++;//加上8x的长度
			}
			else
			{
				lenLen = 1;
				len = pData[start+1];
				//Dbg("single len[%x],[%d]",pData[start+1],len);
			}
			if (tmpDataStart+tagLen+lenLen+len <= dataLen)
			{
				if (IsForm(pData+start,1))
				{
					ICData tmpData(true,pData[start],0x00,level,len);
					vResult.push_back(tmpData);
					int tmpPos = vResult.size();
					int tmpNum = SplitICData(vResult, origData, start + tagLen + lenLen, len, level + 1, origDataLen);
					tagNum += tmpNum;
					vResult.at(tmpPos-1).num = tagNum;
				}
				else
				{
					tagNum++;
					//sprintf(Ttmpxx+jxx*2,"L%d",level);
					//jxx++;
					//char Ttmpxx[512];
					//for (int i = start + tagLen+lenLen; i < start + tagLen+lenLen+len; ++i,++jxx)
					//{
					//	sprintf(Ttmpxx+jxx*2,"%02x",pData[i]);
					//}
					ICData tmpData(false,pData[start],0x00,level,len);
					tmpData.value = new BYTE[len];
					memcpy(tmpData.value,pData+start+tagLen+lenLen,len);
					vResult.push_back(tmpData);
					//start += tagLen+lenLen+len;
					//return true;
				}
				tmpDataStart += tagLen+lenLen+len;
			}

		}
		else
		{
			tagLen = 2;
			if (DATALENFLAG == (pData[start+tagLen]&DATALENFLAG))
			{//长度为'8x'表示此字节表示长度所占的字节
				lenLen = pData[start+tagLen]&DATALENVALUE;
				len = 0;
				memcpy(&len, pData+start+tagLen+1,lenLen);
				lenLen++;//加上8x的长度
			}
			else
			{
				lenLen = 1;
				len = pData[start+tagLen];
				//Dbg("single len[%x],[%d]",pData[start+tagLen],len);
			}
			if (tmpDataStart+tagLen+lenLen+len <= dataLen)
			{
				if (IsForm(pData+start,2))
				{
					ICData tmpData;
					tmpData.level = level;
					tmpData.bForm = true;
					tmpData.tag[0] = pData[start];
					tmpData.tag[1] = pData[start+1];
					tmpData.lenth = len;
					vResult.push_back(tmpData);
					int tmpPos = vResult.size();
					int tmpNum = SplitICData(vResult, origData, start + tagLen + lenLen, len, level + 1, origDataLen);
					tagNum += tmpNum;
					vResult.at(tmpPos-1).num = tagNum;
				}
				else
				{
					tagNum++;
					ICData tmpData;
					tmpData.level = level;
					tmpData.bForm = false;
					tmpData.tag[0] = pData[start];
					tmpData.tag[1] = pData[start+1];
					tmpData.lenth = len;
					tmpData.value = new BYTE[len];
					memcpy(tmpData.value,pData+start+tagLen+lenLen,len);
					vResult.push_back(tmpData);
					//char Ttmpxx[512];
					//sprintf(Ttmpxx+jxx*2,"L%d",level);
					//jxx++;
					//for (int i = start +tagLen+lenLen; i < start +tagLen+lenLen+len; ++i,++jxx)
					//{
					//	sprintf(Ttmpxx+jxx*2,"%02x",pData[i]);
					//}
					//return true;
				}
				tmpDataStart += tagLen+lenLen+len;
			}

		}
		start += tagLen+lenLen+len;
	}while(tmpDataStart < dataLen);
	//Dbg("Ttmpxx[%s]",Ttmpxx);
	return tagNum;
}
int SplitFormString(vector<FormUnit> &vResult,const char *pData,int size,char fstP,char sndP)
{
	//"ARPC,34A2BE5D78C32EE8|ARC,00|SCRIPT,32423424"
	int dataLen = strlen(pData);
	if (dataLen <= 0 || dataLen != size)
	{
		Dbg("Split form string failed.[%d,%s]",size,pData);
		return -1;
	}
	for (int i = 0,j = 0; i < size; ++i)
	{
		FormUnit formUnit;
		char ch = *(pData+i);
		if (ch != fstP)
		{
			int sndLen;
			if (i == size-1)
			{
				sndLen = i-j+1;
				formUnit.pSnd = new char[sndLen];
				ZeroMemory(formUnit.pSnd,sndLen);
				memcpy(formUnit.pSnd,pData+j+1,sndLen-1);
				formUnit.sndSize = sndLen-1;
				vResult.push_back(formUnit);
				break;
			}
			if (ch == sndP)
			{
				sndLen = i-j;
				formUnit.pSnd = new char[sndLen];
				ZeroMemory(formUnit.pSnd,sndLen);
				memcpy(formUnit.pSnd,pData+j+1,sndLen-1);
				formUnit.sndSize = sndLen-1;
				vResult.push_back(formUnit);
				j = i;
			}
		}
		else
		{
			int fstLen,fstStart;
			if (j == 0)
			{
				fstStart = j;
				fstLen = i-j+1;
			}
			else
			{
				fstStart = j+1;
				fstLen = i-j;
			}
			formUnit.pFst =  new char[fstLen];
			ZeroMemory(formUnit.pFst,fstLen);
			memcpy(formUnit.pFst,pData+fstStart,fstLen-1);
			formUnit.fstSize = fstLen-1;
			j = i;
		}
	}
	return 0;
}
int char2int(char ch)
{
	int ret = 0;
	if ('0' <= ch && ch <='9')
		ret = atoi(&ch);
	else
	{
		if ('a' <= ch && ch <= 'f')
		{
			ret = ch - 'a' + 10;
		}
		else if ('A' <= ch && ch <= 'F')
		{
			ret = ch - 'A' + 10;
		}
	}
	return ret;
}
CCardProcess::~CCardProcess()
{

}
void CCardProcess::DataInit()
{
	//m_cardType = CI_CARDTYPE_MAG;
	//data clear
	vector<ICData>::iterator itIC;
	for (itIC = m_vICData.begin(); itIC != m_vICData.end(); ++itIC)
		if (itIC->value != NULL)
			delete []itIC->value;
	m_vICData.clear();
	vector<ICData>::iterator itBus;
	for (itBus = m_vBusData.begin(); itBus != m_vBusData.end(); ++itBus)
		if (itBus->value != NULL)
			delete []itBus->value;
	m_vBusData.clear();
	vector<ADFRecord>::iterator itAdf;
	for (itAdf = m_vADFRec.begin(); itAdf != m_vADFRec.end(); ++itAdf)
	{
		if (itAdf->name != NULL)
			delete []itAdf->name;
		if (itAdf->appLabel != NULL)
			delete []itAdf->appLabel;
		if (itAdf->priName != NULL)
			delete []itAdf->priName;
	}
	m_vADFRec.clear();
	vector<FormUnit>::iterator itOnReply; m_vOnlineReplyData;
	for (itOnReply = m_vOnlineReplyData.begin(); itOnReply != m_vOnlineReplyData.end(); ++itOnReply)
	{
		if (itOnReply->pSnd != NULL)
		{
			delete []itOnReply->pSnd;
			itOnReply->pFst = NULL;
			itOnReply->pSnd = NULL;
		}
	}
	ZeroMemory(m_AIP,2);
	ZeroMemory(m_appVersion,2);
	ZeroMemory(m_TSI,2);
	ZeroMemory(m_TVR,5);
	ZeroMemory(m_IACReject,5);
	ZeroMemory(m_IACOnline,5);
	ZeroMemory(m_IACDefault,5);
	ZeroMemory(m_AuthCode,2);
	ZeroMemory(m_randData,4);
	ZeroMemory(m_CVR,4);
	if (m_pTACReject != NULL)
	{
		delete []m_pTACReject;
		m_pTACReject = NULL;
	}
	if (m_pIACOnline != NULL)
	{
		delete []m_pIACOnline;
		m_pIACOnline = NULL;
	}
	if (m_pTACOnline != NULL)
	{
		delete []m_pTACOnline;
		m_pTACOnline = NULL;
	}
	if (m_pIACDefault != NULL)
	{
		delete []m_pIACDefault;
		m_pIACDefault = NULL;
	}
	if (m_pTACDefault != NULL)
	{
		delete []m_pTACDefault;
		m_pTACDefault = NULL;
	}
	ZeroMemory(m_APDUsendBuf,MAX_SEND_BUF);

	//m_bCDA = false;

}
bool CCardProcess::DetectIfICCard(CardReadType eType, DeviceBaseClass *pCardX, int &cardType)
{
	Dbg("to detect card type.");
	cardType = 0;
	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ContactIC();
		eErr = pCardI->ActiveICCard();
		if (eErr != Error_Succeed)
		{
			Dbg("the card may be not IC card.");
			pCardI->DeactivateICCard();
			pCardI->ReleaseIC();
			return false;
		}
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
		{
			eErr = pCardS->ContactIC();
			eErr = pCardS->ActiveICCard();
			if (eErr != Error_Succeed)
			{
				Dbg("the card may be not IC card.");
				pCardS->DeactivateICCard();
				pCardS->ReleaseIC();
				return false;
			}
		}
		else if (eType == CARD_MACHINE_SWIPER_RF)
		{
			char chType;
			eErr = pCardS->ActiveContactlessICCard('A','B','M',chType);
			if (eErr != Error_Succeed)
			{
				Dbg("the card may be not contactless card.");
				//pCardS->DeactContactlessICCard();
				return false;
			}
			cardType = chType;
			Dbg("Detect CardSwiper(RF) card type %d", cardType);
			if (chType == 'A' || chType == 'B')
				return true;
		}
		
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		char ch;
		eErr = pCardR->ActiveContactlessICCard('A','B','M',ch);
		Dbg("Active card return %d",eErr);
		if (eErr != Error_Succeed)
		{
			Dbg("the card may be not 'A,B,M' card(%d).",eErr);
			//pCardR->DeactContactlessICCard();
			return false;
		}
		cardType = ch;
		Dbg("Detect contactless card type %d",ch);
	}
	return true;
}
ErrorCodeEnum CCardProcess::BuildSupportedAppList(CardReadType eType,DeviceBaseClass *pCardX,vector<AIDData>& vAIDFromTerm)
{
	LOG_FUNCTION();
	//MessageBoxA(0,0,0,0);
	//首先用PSE选择应用
	BYTE zz = 0x00;
	BYTE cls = 0x00;
	BYTE ins = 0xa4;
	BYTE p1 = 0x04;
	BYTE p2 = 0x00;
	BYTE le = NULL;
	BYTE tmpPse1,tmpPse2;
	LPBYTE pData;
	char *pse1 = "1PAY.SYS.DDF01";
	char *pse2 = "2PAY.SYS.DDF01";//oiltmp 20160107 should change to "2PAY.SYS.DDF01"
	
	if (eType == CARD_MACHINE_ISSUER || eType == CARD_MACHINE_SWIPER)
	{
		tmpPse1 = strlen(pse1);
		pData = new BYTE[tmpPse1+1];
		ZeroMemory(pData, tmpPse1 + 1);
		memcpy(pData, pse1, tmpPse1);
		ConstructAPDU(cls, ins, p1, p2, tmpPse1, pData, &le);
	}
	else if (eType == CARD_MACHINE_RFIC || eType == CARD_MACHINE_SWIPER_RF)
	{
		tmpPse2 = strlen(pse2);
		pData = new BYTE[tmpPse2+1];
		ZeroMemory(pData, tmpPse2 + 1);
		memcpy(pData, pse2, tmpPse2);
		ConstructAPDU(cls, ins, p1, p2, tmpPse2, pData, &le);
	}
	else
		return Error_Param;


	//delete[] pData;//oiltest改成统一清理格式

	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

	ErrorCodeEnum eErr = Error_Unexpect;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	memset(TtestIC,0,1024);
	int showLen = 0;
	TtestIC[showLen++] = 'a';
	if (eErr == Error_Succeed)
		TtestIC[showLen++] = (char)eErr+48;
	else
		TtestIC[showLen++] = (char)eErr;
	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		TtestIC[showLen++] = 'b';
		Dbg("recv %d len",lenRecv);
		if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
		{			
			HexBuf2StrBuf(recvBuf,&show,lenRecv);
			Dbg("[%s]", show);
			TtestIC[showLen++] = 'c';
			TtestIC[showLen++] = 'c';
			memcpy(TtestIC+showLen,cmdRecv.data,cmdRecv.dwSize);
			vector<ICData> vPSEData;
			SplitICData(vPSEData, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
			//oilyang add to find aid 20160108
			ICData aidData(false, 0x4f, 0x00);
			if (ToFindTagValue(vPSEData, aidData, false, 0, vPSEData.size() - 1) != -1)
			{
				vAIDFromTerm.clear();
				AIDData aidFromCard;
				aidFromCard.aid = new BYTE[aidData.lenth + 1];
				memcpy(aidFromCard.aid, aidData.value, aidData.lenth);
				aidFromCard.len = aidData.lenth;
				aidFromCard.asiFlag = 1;
				vAIDFromTerm.push_back(aidFromCard);
			}
			LPBYTE pSFI = new BYTE[2];
			DWORD lenSFI;
			ICData testData(false,0x88,0x00,2);
			if (ToFindTagValue(vPSEData,testData,true,0,vPSEData.size()-1) != -1)
			{
				BYTE tmpSFI = testData.value[0];
				BYTE tmpP2 = (tmpSFI<<3)+0x04;
				delete[] testData.value;
				bool bNoMoreRec = false,bFirstRead = true;
				do
				{
					ConstructAPDU(0x00,0xb2,tmpSFI,tmpP2,NULL,NULL,&zz);
					//rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
					cmdSend.dwSize = m_lenAPDU;
					memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
					memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

					if (eType == CARD_MACHINE_ISSUER)
					{
						eErr = pCardI->ICCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
					{
						eErr = pCardS->ICCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_RFIC)
					{
						eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_SWIPER_RF)
					{
						eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
					}
					if (eErr == Error_Succeed)
					{
						memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
						lenRecv = cmdRecv.dwSize;
						HexBuf2StrBuf(recvBuf,&show,lenRecv);
						Dbg("[%s]",show);
						if(recvBuf[lenRecv-2] == 0x6A && recvBuf[lenRecv-1] == 0x83)
						{
							bNoMoreRec = true;
							if (bFirstRead)
							{
								delete[] recvBuf;
								return BuildAppListByAIDs(eType,pCardX,vAIDFromTerm);
							}
						}
						else if(recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
						{
							bFirstRead = false;
							vector<ICData> vDirRec;
							SplitICData(vDirRec, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
							ICData dirData(true,0x61,0x00,1);
							int start = 0;
							for (int ret = 0; start < vDirRec.size();)
							{
								//dirData.bForm = true;
								//dirData.tag[0] = 0x61;
								//dirData.tag[1] = 0x00;
								//dirData.level = 1;
								ret = ToFindTagValue(vDirRec,dirData,true,start,vDirRec.size()-1);
								if (ret == -1 )
									break;
								start += ret;
								if (start >= vDirRec.size()-1)
									break;
								if (vDirRec.at(start+1).tag[0] == 0x4F && vDirRec.at(start+1).tag[1] == 0x00)
								{
									ProcessADFRecord(vDirRec,start);
								}
								else if (vDirRec.at(start+1).tag[0] == 0x9D && vDirRec.at(start+1).tag[1] == 0x00)
								{
									//oiltmp
									ProcessDDFRecord(eType,pCardX,vAIDFromTerm,vDirRec.at(start+1).value,vDirRec.at(start+1).lenth);
								}
								start++;
							}
							tmpSFI++;
							continue;
						}
						else
						{
							delete[] recvBuf;
							return BuildAppListByAIDs(eType,pCardX,vAIDFromTerm);		
						}
					}
					else
					{
						Dbg("ic failed:%d,(tmpSFI)%d",eErr,tmpSFI);
						break;
					}
				}while(!bNoMoreRec);
			}
		}
		else if (recvBuf[lenRecv-2] == 0x6a && recvBuf[lenRecv-1] == 0x81)
		{
			//6A81 － 卡片被锁或命令不支持；
			//以上情况中止交易oiltmp
			Dbg("Build from PSE return 6a81,to term trans.");
			return Error_DevMedia;
		}
		else
		{
			//6A82 － 所选的文件未找到； 
			//——情形 1：PSE 未找到，即卡片不支持目录选择方法； 
			//——情形 2：P2 设为读取具有相同 AID 前缀的其它应用时卡片中已没有其它应用。 
			//6283 － 选择文件无效。
			Dbg("Build from PSE failed.%x,%x",recvBuf[lenRecv-2],recvBuf[lenRecv-1]);
			delete[] recvBuf;
			return BuildAppListByAIDs(eType,pCardX,vAIDFromTerm);			

		}
	}
	else
	{
		delete[] recvBuf;
		return eErr;
	}

	return Error_Succeed;
}
ErrorCodeEnum CCardProcess::BuildAppListByAIDs(CardReadType eType,DeviceBaseClass *pCardX,vector<AIDData>& vAIDFromTerm)
{
	LOG_FUNCTION();
	BYTE zz = 0x00;
	BYTE cls = 0x00;
	BYTE ins = 0xa4;
	BYTE p1 = 0x04;
	BYTE p2 = 0x00;
	BYTE le = NULL;                                                                          

	vector<AIDData>::iterator it;
	CmdInfo cmdSend,cmdRecv;

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
	}
	for (it = vAIDFromTerm.begin(); it != vAIDFromTerm.end(); ++it)
	{
		BYTE* pData = new BYTE[it->len];
		if (pData == NULL)
			continue;
		memcpy(pData,it->aid,it->len);
Step7:
		ConstructAPDU(cls,ins,p1,p2,it->len,pData,&le);

		bool bAddADF = false,b9000 = false,b6283 = false;
		int lenRecv;
		LPBYTE recvBuf = new BYTE[1024];
		char* show = new char[MAX_TEST_SHOW];
		ZeroMemory(show,MAX_TEST_SHOW);
		//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);

		cmdSend.dwSize = m_lenAPDU;
		memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
		memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

		if (eType == CARD_MACHINE_ISSUER)
		{
			eErr = pCardI->ICCommand(cmdSend,cmdRecv);
		}
		else if (eType == CARD_MACHINE_SWIPER)
		{
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);				
		}
		else if (eType == CARD_MACHINE_RFIC)
		{
			eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
		}
		else if (eType == CARD_MACHINE_SWIPER_RF)
		{
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
		}
		if (eErr == 0)
		{
			memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
			lenRecv = cmdRecv.dwSize;
			Dbg("recv:%d,%x%x",lenRecv,recvBuf[lenRecv-2],recvBuf[lenRecv-1]);
			if (recvBuf[lenRecv-2] == 0x6a && recvBuf[lenRecv-1] == 0x81)
				return Error_DevMedia;//oiltmp 终止选择过程

			if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
				b9000 = true;
			if (recvBuf[lenRecv-2] == 0x62 && recvBuf[lenRecv-1] == 0x83)
				b6283 = true;
			if (!b9000 && !b6283)
			{
				Dbg("not 9000 or 6283,failed.");
				return Error_DevMedia;
			}
			vector<ICData> vSelectedData;
			SplitICData(vSelectedData, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
			ICData dfData(false,0x84,0x00,2);
			if (ToFindTagValue(vSelectedData,dfData,true,0,vSelectedData.size()-1) == -1)
				continue;

			if (b9000 || b6283)
			{
				if (dfData.lenth < it->len)
					continue;
				if (memcmp(it->aid,dfData.value,it->len) == 0)
				{
					if (dfData.lenth > it->len)
					{
						if (it->asiFlag == 1)
						{
							p2 = 0x02;
							goto Step7;
						}
						else
						{
							if (!b9000)
							{
								p2 = 0x02;
								goto Step7;
							}
							else
							{
								p2 = 0x02;
								bAddADF = true;
							}
						}
					}
					else
					{
						if (b6283)
							continue;
					}
				}
				ICData data50(false,0x50,0x00),data9f12(false,0x9f,0x12),data87(false,0x87,0x00);
				ADFRecord adfRec;
				adfRec.name = new BYTE[dfData.lenth+1];
				memcpy(adfRec.name,dfData.value,dfData.lenth);
				adfRec.nameLen = dfData.lenth;
				if (dfData.value != NULL)
					delete[] dfData.value;
				HexBuf2StrBuf(adfRec.name,&show,adfRec.nameLen);
				if (ToFindTagValue(vSelectedData,data50,false,0,vSelectedData.size()-1) != -1)
				{
					adfRec.appLabel = new BYTE[data50.lenth+1];
					memcpy(adfRec.appLabel,data50.value,data50.lenth);
					adfRec.appLabelLen = data50.lenth;
					if (data50.value != NULL)
						delete[] data50.value;
					HexBuf2StrBuf(adfRec.appLabel,&show,adfRec.appLabelLen);
				}
				if (ToFindTagValue(vSelectedData,data9f12,false,0,vSelectedData.size()-1) != -1)
				{
					adfRec.priName = new BYTE[data9f12.lenth+1];
					memcpy(adfRec.priName,data9f12.value,data9f12.lenth);
					adfRec.priNameLen = data9f12.lenth;
					if(data9f12.value != NULL)
						delete[] data9f12.value;
					HexBuf2StrBuf(adfRec.priName,&show,adfRec.priNameLen);
				}
				if (ToFindTagValue(vSelectedData,data87,false,0,vSelectedData.size()-1) != -1)
				{
					adfRec.appPriID = *data87.value;
					adfRec.appPriIDLen = 1;
				}
				m_vADFRec.push_back(adfRec);
				if (bAddADF)
					goto Step7;
			}
			else
				continue;
		}
	}
	return Error_Succeed;
}
ErrorCodeEnum CCardProcess::AppSelected(CardReadType eType,DeviceBaseClass *pCardX,LPBYTE aid,BYTE lenAID)
{
	LOG_FUNCTION();
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	HexBuf2StrBuf(aid,&show,lenAID);
	BYTE zz = 0x00;
	//oiltmp添加判断aid是否存在于aid列表？目前先不做
	BYTE le = 0x00;
	ConstructAPDU(0x00,0xa4,0x04,0x00,lenAID,aid,&le);
	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];

	//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

	ZeroMemory(show,MAX_TEST_SHOW);
	HexBuf2StrBuf(m_APDUsendBuf,&show,m_lenAPDU);
	Dbg("to appselect[%d][%s][%d]",eType,show,m_lenAPDU);

	ErrorCodeEnum eErr = Error_Unexpect;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}



	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		ZeroMemory(show,MAX_TEST_SHOW);
		HexBuf2StrBuf(recvBuf,&show,lenRecv);
		Dbg("after appselect[%s]",show);
		if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
		{
			vector<ICData> vGPOData;
			SplitICData(vGPOData, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
			ICData pdol(false,0x9f,0x38);
			DWORD lenPDOLVal;
			LPBYTE pPDOLVal = NULL;
			LPBYTE tmpBuf = NULL;
			if (ToFindTagValue(vGPOData,pdol,false,0,vGPOData.size()-1) == -1)
			{
				lenPDOLVal = 0;
			}
			else
				FillPDOL(pdol,&pPDOLVal,lenPDOLVal);
			tmpBuf = new BYTE[lenPDOLVal+2];//oiltmp数据长度字段暂时默认1字节
			tmpBuf[0] = 0x83;
			tmpBuf[1] = (BYTE)lenPDOLVal;
			memcpy(tmpBuf+2,pPDOLVal,lenPDOLVal);
			ConstructAPDU(0x80,0xa8,0x00,0x00,lenPDOLVal+2,tmpBuf,&le);
			//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
			CmdInfo cmdSend,cmdRecv;
			cmdSend.dwSize = m_lenAPDU;
			memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
			memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
			if (eType == CARD_MACHINE_ISSUER)
			{
				pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
				eErr = pCardI->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
			{
				pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
				if (eType == CARD_MACHINE_SWIPER)
					eErr = pCardS->ICCommand(cmdSend,cmdRecv);
				else if (eType == CARD_MACHINE_SWIPER_RF)
					eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_RFIC)
			{
				pCardR = dynamic_cast<RFICClass*>(pCardX);
				eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
			}

			if (eErr == Error_Succeed)
			{
				memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
				lenRecv = cmdRecv.dwSize;
				ZeroMemory(show,MAX_TEST_SHOW);
				HexBuf2StrBuf(recvBuf,&show,lenRecv);
				Dbg("gpo result [%s]",show);
				if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
				{
					if (recvBuf[0] == 0x80)
					{
						ICData gpoData;
						if (gpoData.value != NULL)
							delete[] gpoData.value;
						gpoData.value = new BYTE[recvBuf[1]];
						gpoData.lenth = recvBuf[1];
						memcpy(gpoData.value,recvBuf+2,gpoData.lenth);
						//pGpo[0] = gpoData.value[0];
						//pGpo[1] = gpoData.value[1];
						eErr = ReadData(eType,pCardX,gpoData.value,gpoData.lenth);
						if (eErr == Error_Succeed)
							stable_sort(m_vICData.begin(),m_vICData.end(),compare_icdata);
						else
						{
							Dbg("ReadData failed(%d).",eErr);
							return Error_DevCommFailed;
						}
						int noneofone = 0;
					}
				}
			}
		}
		else {
			Dbg("app selected failed.");
			return Error_DevCommFailed;
		}
	}
	else
	{
		Dbg("app selected command failed(%d).",eErr);
		return Error_DevCommFailed;
	}
	return Error_Succeed;
}
ErrorCodeEnum CCardProcess::ReadData(CardReadType eType,DeviceBaseClass *pCardX,LPBYTE data,DWORD len)
{
	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	ZeroMemory(recvBuf,1024);
	m_AIP[0] = data[0];
	m_AIP[1] = data[1];

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
	}
	for (int i = 2; i < len;)
	{
		BYTE afl[4];
		memcpy(afl,data+i,4);
		i += 4;
		BYTE recordSeq,le=0x00;
		BYTE sfi = afl[0]>>3;
		BYTE p2 = (sfi<<3)+0x04;
		for(recordSeq = afl[1]; recordSeq <= afl[2]; ++recordSeq)
		{
			ConstructAPDU(0x00,0xb2,recordSeq,p2,NULL,NULL,&le);
			//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
			CmdInfo cmdSend,cmdRecv;
			cmdSend.dwSize = m_lenAPDU;
			ZeroMemory(cmdSend.data,sizeof(cmdSend.data));
			ZeroMemory(cmdRecv.data,sizeof(cmdRecv.data));
			memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
			if (eType == CARD_MACHINE_ISSUER)
			{
				eErr = pCardI->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER)
			{
				eErr = pCardS->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_RFIC)
			{
				eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER_RF)
			{
				eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
			}
			if (eErr == Error_Succeed)
			{
				memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
				lenRecv = cmdRecv.dwSize;
				HexBuf2StrBuf(recvBuf,&show,lenRecv);
				//Dbg("ReadData[%s]",show);
				Dbg("read record i(%d),p1.record(%d),p2(%d)",i,recordSeq,p2);
				SplitICData(m_vICData, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
			}
			else
			{
				Dbg("read data failed(%d).",eErr);
				return Error_DevCommFailed;
			}
		}
	}
	Dbg("read data end");
	delete[] recvBuf;
	delete[] show;
	return Error_Succeed;
}
void CCardProcess::ProcessADFRecord(vector<ICData>& record,int start)
{
	LOG_FUNCTION();
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	ICData data4f(false,0x4f,0x00),data50(false,0x50,0x00),data9f12(false,0x9f,0x12),data87(false,0x87,0x00);
	if (ToFindTagValue(record,data4f,false,start,start+record.at(start).num) != -1 &&
		ToFindTagValue(record,data50,false,start,start+record.at(start).num) != -1)
	{
		ADFRecord adfRec;
		adfRec.name = new BYTE[data4f.lenth+1];
		memcpy(adfRec.name,data4f.value,data4f.lenth);
		adfRec.nameLen = data4f.lenth;
		if (data4f.value != NULL)
			delete[] data4f.value;
		HexBuf2StrBuf(adfRec.name,&show,adfRec.nameLen);
		adfRec.appLabel = new BYTE[data50.lenth+1];
		memcpy(adfRec.appLabel,data50.value,data50.lenth);
		adfRec.appLabelLen = data50.lenth;
		if (data50.value != NULL)
			delete[] data50.value;
		HexBuf2StrBuf(adfRec.appLabel,&show,adfRec.appLabelLen);
		if (ToFindTagValue(record,data9f12,false,start,start+record.at(start).num) != -1)
		{
			adfRec.priName = new BYTE[data9f12.lenth+1];
			memcpy(adfRec.priName,data9f12.value,data9f12.lenth);
			adfRec.priNameLen = data9f12.lenth;
			if(data9f12.value != NULL)
				delete[] data9f12.value;
			HexBuf2StrBuf(adfRec.priName,&show,adfRec.priNameLen);
		}
		if (ToFindTagValue(record,data87,false,start,start+record.at(start).num) != -1)
		{
			adfRec.appPriID = *data87.value;
			adfRec.appPriIDLen = 1;
		}
		m_vADFRec.push_back(adfRec);
	}
}
void CCardProcess::ProcessDDFRecord(CardReadType eType,DeviceBaseClass *pCardX,vector<AIDData>& vAIDFromTerm,LPBYTE pDDF,int length)
{
	BYTE zz = 0x00;
	BYTE cls = 0x00;
	BYTE ins = 0xa4;
	BYTE p1 = 0x04;
	BYTE p2 = 0x00;
	BYTE le = NULL;

	LPBYTE pData = new BYTE[length];
	if (pData == NULL)
		return ;
	memcpy(pData,pDDF,length);
	ConstructAPDU(cls,ins,p1,p2,length,pData,&le);

	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
		{
			HexBuf2StrBuf(recvBuf,&show,lenRecv);
			vector<ICData> vPSEData;
			SplitICData(vPSEData, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
			DWORD lenSFI;
			ICData testData(false,0x88,0x00,2);
			if (ToFindTagValue(vPSEData,testData,true,0,vPSEData.size()-1) != -1)
			{
				BYTE tmpSFI = testData.value[0];
				BYTE tmpP2 = (tmpSFI<<3)+0x04;
				delete[] testData.value;
				bool bNoMoreRec = false,bFirstRead = true;
				do
				{
					ConstructAPDU(0x00,0xb2,tmpSFI,tmpP2,NULL,NULL,&zz);
					//rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);

					cmdSend.dwSize = m_lenAPDU;
					memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
					memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

					if (eType == CARD_MACHINE_ISSUER)
					{
						eErr = pCardI->ICCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_SWIPER)
					{
						eErr = pCardS->ICCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_RFIC)
					{
						eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
					}
					else if (eType == CARD_MACHINE_SWIPER_RF)
					{
						eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
					}
					if (eErr == Error_Succeed)
					{
						memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
						lenRecv = cmdRecv.dwSize;
						HexBuf2StrBuf(recvBuf,&show,lenRecv);
						if(recvBuf[lenRecv-2] == 0x6A && recvBuf[lenRecv-1] == 0x83)
						{
							bNoMoreRec = true;
							if (bFirstRead)
								break;
						}
						else if(recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
						{
							bFirstRead = false;
							vector<ICData> vDirRec;
							SplitICData(vDirRec, &recvBuf, 0, lenRecv - 2, 0, lenRecv - 2);
							ICData dirData(true,0x61,0x00,1);
							int start = 0;
							for (int ret = 0; start < vDirRec.size();)
							{
								ret = ToFindTagValue(vDirRec,dirData,true,start,vDirRec.size()-1);
								if (ret == -1 )
									break;
								start += ret;
								if (vDirRec.at(start+1).tag[0] == 0x4F && vDirRec.at(start+1).tag[1] == 0x00)
								{
									ProcessADFRecord(vDirRec,start);
								}
								else if (vDirRec.at(start+1).tag[0] == 0x9D && vDirRec.at(start+1).tag[1] == 0x00)
								{
									//oiltmp
									ProcessDDFRecord(eType,pCardX,vAIDFromTerm,vDirRec.at(start+1).value,vDirRec.at(start+1).lenth);
								}
							}
							tmpSFI++;
							continue;
						}
					}
					else
						break;
				}while(!bNoMoreRec);
			}
		}
	}
	delete[] recvBuf;
	delete[] show;
	return;
}
bool CCardProcess::FillPDOL(ICData& pdol,LPBYTE* ppBYTE,DWORD& lenPDOL)
{
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	HexBuf2StrBuf(pdol.value,&show,pdol.lenth);
	//oiltmp 20141021 for temp
	ICData data(false,0x9f,0x66);
	data.value = new BYTE[4];
	data.lenth = 4;
	ZeroMemory(data.value,4);
	data.value[0] = 0xff;
	data.value[1] = 0x80;
	data.value[2] = 0x0;
	data.value[3] = 0x0;
	m_vBusData.push_back(data);
	Dbg("to fill pdol [%s]",show);
	//6f458408a000000333010101a539500a50424f432044454249548701019f38099f7a019f0206
	//5f2a025f2d027a689f1101019f120ad5d0d0d0d2bbbfa8cda8bf0c059f4d020b0a9000
	//9f38099f7a019f02065f2a02
	char* test = "000102030405060708";
	char tmpBuf[512];
	lenPDOL = 0;
	for (int i = 0; i < pdol.lenth;)
	{
		if (IsDoubleByteFlag(pdol.value[i]))
		{

			ICData tagValue(false,pdol.value[i],pdol.value[i+1]);
			if (ToFindTagValue(m_vBusData,tagValue,false,0,m_vBusData.size()-1) != -1)
				memcpy(tmpBuf+lenPDOL,tagValue.value,tagValue.lenth);
			else
				memset(tmpBuf+lenPDOL,0,pdol.value[i+2]);
			Dbg("[%s]",tmpBuf);
			lenPDOL += pdol.value[i+2];
			i += 3;
		}
		else
		{

			Dbg("unknown tag...%x",pdol.value[i]);
			memset(tmpBuf+lenPDOL,0,pdol.value[i+1]);

			//memcpy(tmpBuf+lenPDOL,test,pdol.value[i+1]);
			lenPDOL += pdol.value[i+1];
			i += 2;
		}
	}
	*ppBYTE = new BYTE[lenPDOL];
	memcpy(*ppBYTE,tmpBuf,lenPDOL);
	//char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	HexBuf2StrBuf(*ppBYTE,&show,lenPDOL);
	Dbg("filled..pdol[%s]",show);
	return true;
}
void CCardProcess::ProcessSFIRecord(LPBYTE* rec,int lenRec)
{
	//	char* show = new char[MAX_TEST_SHOW];
	//ZeroMemory(show,MAX_TEST_SHOW);
	//HexBuf2StrBuf(*rec,&show,lenRec-2);
	////DeleteICData();
	//vector<ICData> vSFIRec;
	//SplitICData(vSFIRec,rec,0,lenRec,0);
	//ICData testData;

	//int start = 0;
	//for (int ret = 0; start < vSFIRec.size();)
	//{
	//	testData.bForm = true;
	//	testData.tag[0] = 0x61;
	//	testData.tag[1] = 0x00;
	//	testData.level = 1;
	//	ret = FindTagValue(vSFIRec,testData,true,start,vSFIRec.size()-1);
	//	if (ret == -1 )
	//		break;
	//	start = start+ret+1;
	//	//oiltest M标签固定排序？
	//	if (vICData.at(start).tag[0] == 0x4F && vICData.at(start).tag[1] == 0x00)
	//	{
	//		//ADF，取相应的数据

	//	}
	//	else if (vICData.at(start).tag[0] == 0x9D && vICData.at(start).tag[1] == 0x00)
	//	{
	//		BYTE zz = 0x00;
	//		BYTE le = NULL;
	//		//DDF
	//		ICData ddfData(false,0x9d,0x00);
	//		FindTagValue(vICData,ddfData,false,start,start+vICData.at(start-1).num-1);
	//		ConstructAPDU(0x00,0xa4,04,00,ddfData.lenth,ddfData.value,&le);
	//		int lenRecv;
	//		LPBYTE recvBuf = new BYTE[1024];
	//			char* show = new char[MAX_TEST_SHOW];
	//			ZeroMemory(show,MAX_TEST_SHOW);
	//		int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	//		if (rc == 0)
	//		{
	//			if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
	//			{
	//				BYTE tmpSFI = ddfData.value[0];
	//				BYTE tmpP2 = (tmpSFI<<3)+0x04;
	//				delete[] ddfData.value;
	//				bool bNoMoreRec = false;
	//				do
	//				{
	//					ConstructAPDU(0x00,0xb2,tmpSFI,tmpP2,NULL,NULL,&zz);
	//					rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	//					if (rc == 0)
	//					{
	//						HexBuf2StrBuf(recvBuf,&show,lenRecv);
	//						if(recvBuf[lenRecv-2] == 0x6A && recvBuf[lenRecv-1] == 0x83)
	//							bNoMoreRec = true;
	//						else if(recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
	//						{
	//							ProcessSFIRecord(&recvBuf,lenRecv-2);
	//							//DeleteICData();
	//							tmpSFI++;
	//							continue;
	//						}
	//					}
	//					else
	//						break;
	//				}while(!bNoMoreRec);
	//			}
	//		}
	//	}
	//}
}
void CCardProcess::ProcessRestrict()
{
	LOG_FUNCTION();
	//应用版本号检查
	ICData appVersion(false,0x9f,0x08);
	if (ToFindTagValue(m_vICData,appVersion,false,0,m_vICData.size()-1) == -1)
	{
		return;
	}
	if (m_appVersion[0] != appVersion.value[0] || m_appVersion[1] != appVersion.value[1])
	{
		Dbg("app version not match.%x.%x:%x.%x", m_appVersion[0], m_appVersion[1], appVersion.value[0], appVersion.value[1]);
		m_TVR[1] |= TVR_APP_VERSION_UNMATCH;
		return;
	}
	//AUC检查
	//...
	//发卡行国家代码
	//应用用途控制检查 Opt
	//应用失效日期检查
	ICData appExpiryDate(false,0x5f,0x24);
	if (ToFindTagValue(m_vICData,appExpiryDate,false,0,m_vICData.size()-1) == -1)
	{
		return;
	}

	DWORD exYear = (appExpiryDate.value[0] >> 4) * 10 + (appExpiryDate.value[0] & 0x0f) + 2000;
	DWORD exMonth = (appExpiryDate.value[1] >> 4) * 10 + (appExpiryDate.value[1] & 0x0f);
	DWORD exDay = (appExpiryDate.value[2] >> 4) * 10 + (appExpiryDate.value[2] & 0x0f);

#ifdef _WIN32
	SYSTEMTIME localTime;
	GetLocalTime(&localTime);
	ATL::CTime currTime(localTime.wYear, localTime.wMonth, localTime.wDay, 0, 0, 0);
	ATL::CTime exTime(exYear, exMonth, exDay, 0, 0, 0);
	if (exTime <= currTime) {
		return;
	}
#else
	time_t t;
	time(&t);
	struct tm* t1;
	t1 = localtime(&t);
	t1->tm_year += 1900;
	t1->tm_mon += 1; /*TO COMFIRM*/
	if (exYear < t1->tm_year
		|| (exYear == t1->tm_year && exMonth < t1->tm_mon)
		|| (exYear == t1->tm_year && exMonth == t1->tm_mon && exDay < t1->tm_yday)) {
		return;
	}

#endif //_WIN32

	//应用生效日期检查 Opt
}
void CCardProcess::CardholderVerify()
{
	LOG_FUNCTION();
	//oiltmp目前只支持联机密码验证
	return;
	//bool bCardhoderVerify = false;
	//if (CARDHOLDERVERIFYFLAG == m_AIP[0]&CARDHOLDERVERIFYFLAG)
	//	bCardhoderVerify = true;
	//ICData CVMList(false,0x8e,0x00);
	//int start = 0;
	////逐一处理CVMList
	//do
	//{
	//	int tmpPos = FindTagValue(m_vICData,CVMList,false,start,m_vICData.size()-1);
	//	if (tmpPos == -1)
	//	{
	//		if (start == 1)
	//			m_TVR[0] |= TVR_IC_Data_Miss;//设置TVR ‘IC卡数据缺失’
	//		break;
	//	}
	//	do
	//	{
	//		//oiltest暂时只处理‘总是’选项
	//		if (CVMList.value[9] != 0x00)
	//			break;
	//		if ((CVMList.value[8]&0x3f) == 0x01 || CVMList.value[8]&0x3f) == 0x02 || CVMList.value[8]&0x3f) == 0x1f)
	//		{
	//		}
	//		else
	//		{
	//			m_TVR[2] |= TVR_CVM_Unkown;
	//			break;
	//		}
	//	}while(false);
	//	if (0x00 == (CVMList.value[8]&0x40))
	//	{
	//		m_TVR[2] |= TVR_CVM_Failed;
	//		break;
	//	}
	//	start = tmpPos;
	//}while(start < m_vICData.size());

	//m_TSI[0] |= TSI_Cardholder;
}
void CCardProcess::TermRiskManage()
{
	LOG_FUNCTION();
	//终端异常文件检查
	ICData pan(false,0x5a,0x00);
	if (ToFindTagValue(m_vICData,pan,false,0,m_vICData.size()-1) == -1)
	{
	}

	//商户强制交易联机
	//最低限额检查
	//随机交易选择
	//频度检查
	//新卡检查
}
int CCardProcess::TermActionAnalyze(CardReadType eType,DeviceBaseClass *pCardX,CSimpleStringA &result,bool bOnlineOnly,bool bCDA,BYTE &d9f27)
{
	LOG_FUNCTION();
	//9F0D缺省 9F0E拒绝 9F0F联机
	ICData iacDefault(false,0x9f,0x0d);
	ICData iacReject(false,0x9f,0x0e);
	ICData iacOnline(false,0x9f,0x0f);
	BYTE p1;
	do
	{
		if (ToFindTagValue(m_vICData,iacReject,0,0,m_vICData.size()-1) == -1)
			memset(m_IACReject,0,5);
		else
			memcpy(m_IACReject,iacReject.value,5);
		if (m_pTACReject == NULL)
		{
			m_pTACReject = new BYTE[5];
			memset(m_pTACReject,0,5);
		}
		if (IsSamePositionSet(m_IACReject,m_TVR,5) || IsSamePositionSet(m_pTACReject,m_TVR,5))
		{
			Dbg("iacreject:%x%x%x%x%x,tvr:%x%x%x%x%x", m_IACReject[0], m_IACReject[1], m_IACReject[2], m_IACReject[3], m_IACReject[4]
				, m_TVR[0], m_TVR[1], m_TVR[2], m_TVR[3], m_TVR[4]);
			m_AuthCode[0] = 'Z';
			m_AuthCode[1] = '1';
			p1 = P1_GENAC_AAC;
			break;
		}

		if (bOnlineOnly)
		{
			p1 = P1_GENAC_ARQC;
			break;
		}
		else
		{
			if (ToFindTagValue(m_vICData,iacOnline,0,0,m_vICData.size()-1) == -1)
				memset(m_IACOnline,0xff,5);
			else
				memcpy(m_IACOnline,iacOnline.value,5);
			if (m_pTACOnline == NULL)
			{
				m_pTACOnline = new BYTE[5];
				memset(m_pTACOnline,0,5);
			}
			if (IsSamePositionSet(m_IACOnline,m_TVR,5) || IsSamePositionSet(m_pTACOnline,m_TVR,5))
			{
				p1 = P1_GENAC_ARQC;
				break;
			}

			if (ToFindTagValue(m_vICData,iacDefault,0,0,m_vICData.size()-1) == -1)
				memset(m_IACDefault,0xff,5);
			else
				memcpy(m_IACDefault,iacDefault.value,5);
			if (m_pTACDefault == NULL)
			{
				m_pTACDefault = new BYTE[5];
				memset(m_pTACDefault,0,5);
			}
			if (IsSamePositionSet(m_IACDefault,m_TVR,5) || IsSamePositionSet(m_pTACDefault,m_TVR,5))
			{
				m_AuthCode[0] = 'Z';
				m_AuthCode[1] = '3';
				p1 = P1_GENAC_AAC;
				break;
			}
		}
		m_AuthCode[0] = 'Y';
		m_AuthCode[1] = '1';
		p1 = P1_GENAC_TC;
	}while(false);
	if (bCDA)
	{
		p1 |= 0x10;//设置执行CDA标识
	}
	d9f27 = p1;
	Dbg("to do 1st gen ac bCDA(%d)(%d)",bCDA,p1);
	//1st genarate ac
	ICData cdol1(false,0x8c,0x00);
	if (ToFindTagValue(m_vICData,cdol1,0,0,m_vICData.size()-1) == -1)
	{
		Dbg("can't find cdol1.");
		return -1;
	}

	PBYTE pCDOL1;
	DWORD lenCDOL1=0;
	FillCDOL(cdol1,pCDOL1,lenCDOL1);
	ConstructAPDU(CLS_GENAC,INS_GENAC,p1,0x00,lenCDOL1,pCDOL1,0x00);
	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	//int rc = CPU_T0_C_APDU(m_hIDCCOM,m_lenAPDU,m_APDUsendBuf,recvBuf,&lenRecv);
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
	HexBuf2StrBuf(cmdSend.data,&show,m_lenAPDU);
	Dbg("1st GenAc cmd[%s]",show);

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	Dbg("1st gen ac rc[%d]",eErr);
	bool bFirstGenAC = false;
	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		ZeroMemory(show,MAX_TEST_SHOW);
		HexBuf2StrBuf(recvBuf,&show,lenRecv);
		Dbg("1stGenAc recv[%s]",show);
		if (recvBuf[lenRecv-2] == 0x61)
		{
			BYTE btLen = recvBuf[lenRecv-1];
			ConstructAPDU(CLS_GET_RESPONSE,INS_GET_RESPONSE,0x00,0x00,NULL,NULL,&btLen);
			CmdInfo cmdSend,cmdRecv;
			cmdSend.dwSize = m_lenAPDU;
			memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
			memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
			ZeroMemory(show,MAX_TEST_SHOW);
			HexBuf2StrBuf(cmdSend.data,&show,m_lenAPDU);
			Dbg("get response cmd[%s]",show);
			if (eType == CARD_MACHINE_ISSUER)
			{
				eErr = pCardI->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER)
			{
				eErr = pCardS->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_RFIC)
			{
				eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER_RF)
			{
				eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
			}
			if (eErr == Error_Succeed)
			{
				ZeroMemory(show,MAX_TEST_SHOW);
				ZeroMemory(recvBuf,1024);
				memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
				lenRecv = cmdRecv.dwSize;
				HexBuf2StrBuf(recvBuf,&show,lenRecv);
				//Dbg("oiltest get response recv[%s]",show);
				if (recvBuf[lenRecv - 2] == 0x90 && recvBuf[lenRecv - 1] == 0x00)
				{
					bFirstGenAC = true;
					Dbg("first generate ac suc.");
				}
				else
				{
					Dbg("first generate ac failed.%x%x", recvBuf[lenRecv - 2], recvBuf[lenRecv - 1]);
				}
			}
		}
		else if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
			bFirstGenAC = true;
		else if (recvBuf[lenRecv-2] == 0x69 && recvBuf[lenRecv-1] == 0x85)
		{
			//>2 generate ac
		}
		if (bFirstGenAC)
		{
			//form2 '77'暂不考虑
			//form1 '80'
			if (recvBuf[0] == 0x80)
			{
				//80 1e 80 0008 328ab54bfc986b85 07010103a0b000010a010000000000754048769000
				//密文信息数据 1B,ATC 2B,AC 8B,发卡行数据 opt
				//暂不执行CDA oiltmp

				BYTE cryptInfo = recvBuf[2];
				m_TSI[0] |= TSI_TERM_RISK_MANAGE;
				if (((p1&P1_GENAC_TC) == P1_GENAC_TC || (p1&P1_GENAC_ARQC) == P1_GENAC_ARQC) && ((cryptInfo & 0xc0) == P1_GENAC_ARQC))
				{
					//同时终端有联机能力则执行联机请求
					if ((p1&P1_GENAC_ARQC) == P1_GENAC_ARQC)
						m_P1 = 1;
					else
						m_P1 = 0;
					m_CVR[0] = recvBuf[16];
					m_CVR[1] = recvBuf[17];
					m_CVR[2] = recvBuf[18];
					m_CVR[3] = recvBuf[19];
					result = show;
					return 0;
				}
				else if ((((p1&P1_GENAC_AAC) == P1_GENAC_AAC) && (((cryptInfo & 0xc0) == 0x40) || ((cryptInfo & 0xc0) == 0x80)))
					|| (((p1&P1_GENAC_ARQC) == P1_GENAC_ARQC) && ((cryptInfo&0xc0) == 0x40)))
				{
					//终止交易
					return 1;
				}
				else
				{
					//满足
					//1.执行了CDA但结果失败；2.卡片响应AAC或者TC；3.卡片响应ARQC但终端没联机能力
					//之一则执行‘交易结束流程’
					return 2;
				}
			}
		}
	}

	if (recvBuf != NULL)
		delete []recvBuf;
	if (show != NULL)
		delete []show;
	return 0;
}
bool CCardProcess::FillCDOL(ICData& cdol,PBYTE &pBYTE,DWORD &lenCDOL)
{
	Dbg("Fill CDOL");
	char* test = "000102030405060708";
	char tmpBuf[512] = {0};
	char *pShow = new char[32];

	lenCDOL = 0;
	//9f0206 9f0306 9f1a02 9505 5f2a02 9a03 9c01 9f3704 9f2103 9f4e14
	//9f0206授权金额 ( 6 )， 9f0306其它金额 （ 6）， 9f1a02终端国家代码（ 2）
	//，5f2a02交易货币代码（ 2）， 9a03交易日期（ 3）， 9c01交易类型（ 1），
	//9f2103交易时间（ 3）， 9f4e14商户名称（ 14，16进制的，换成10进制是20字节）

	for (int i = 0; i < cdol.lenth;)
	{
		if (IsDoubleByteFlag(cdol.value[i]))
		{
			ZeroMemory(pShow,32);
			HexBuf2StrBuf(cdol.value+i,&pShow,2);
			//Dbg("double flag:[%s]",pShow);
			//memcpy(tmpBuf+lenCDOL,test,cdol.value[i+2]);
			ICData authAmount(false,0x9f,0x02),otherAmount(false,0x9f,0x03),ctyCode(false,0x9f,0x1a)
				,currCode(false,0x5f,0x2a),transTime(false,0x9f,0x21),custName(false,0x9f,0x4e);


			if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x02)
			{
				if (ToFindTagValue(m_vBusData,authAmount,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,authAmount.value,authAmount.lenth);
			}
			else if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x03)
			{
				if (ToFindTagValue(m_vBusData,otherAmount,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,otherAmount.value,otherAmount.lenth);
			}
			//terminal country code "0156"
			else if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x1a)
			{
				if (ToFindTagValue(m_vBusData,ctyCode,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,ctyCode.value,ctyCode.lenth);
			}
			//currency code
			else if (cdol.value[i] == 0x5f && cdol.value[i+1] == 0x2a)
			{
				if (ToFindTagValue(m_vBusData,currCode,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,currCode.value,currCode.lenth);
			}
			else if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x37)
			{
				unsigned int ram;
#ifdef _WIN32
				int ret = rand_s(&ram);
				if(ret == 0)
#else
				ram = rand();
				if(ram != 0)
#endif //_WIN32
				{
					m_randData[0] = tmpBuf[lenCDOL] = ((ram&0xff000000)>>24);
					m_randData[1] = tmpBuf[lenCDOL+1] = ((ram&0x00ff0000)>>16);
					m_randData[2] = tmpBuf[lenCDOL+2] = ((ram&0x0000ff00)>>8);
					m_randData[3] = tmpBuf[lenCDOL+3] = (ram&0x000000ff);
				}
				else
				{
					Dbg("get ram err %d",GetLastError());
				}
			}
			//trans time
			else if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x21)
			{
				if (ToFindTagValue(m_vBusData,transTime,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,transTime.value,transTime.lenth);

			}
			else if (cdol.value[i] == 0x9f && cdol.value[i+1] == 0x4e)
			{
				if (ToFindTagValue(m_vBusData,custName,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,custName.value,custName.lenth);
			}
			else
			{
				Dbg("unknown cdol tag...%x%x",cdol.value[i],cdol.value[i+1]);
				memset(tmpBuf+lenCDOL,0,cdol.value[i+2]);
			}
			lenCDOL += cdol.value[i+2];
			i += 3;
		}
		else
		{
			ZeroMemory(pShow,32);
			HexBuf2StrBuf(cdol.value+i,&pShow,1);
			//Dbg("single flag:[%s]",pShow);
			ICData transDate(false,0x9a,0x00),transType(false,0x9c,0x00);
			if (cdol.value[i] == 0x95)
			{
				tmpBuf[lenCDOL] = 0x00;
				tmpBuf[lenCDOL+1] = 0x00;
				tmpBuf[lenCDOL+2] = 0x00;
				tmpBuf[lenCDOL+3] = 0x00;
				tmpBuf[lenCDOL+4] = 0x00;
			}
			else if (cdol.value[i] == 0x9a)
			{
				if (ToFindTagValue(m_vBusData,transDate,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,transDate.value,transDate.lenth);
			}
			else if (cdol.value[i] == 0x9c)
			{
				if (ToFindTagValue(m_vBusData,transType,false,0,m_vBusData.size()-1) != -1)
					memcpy(tmpBuf+lenCDOL,transType.value,transType.lenth);
			}
			else
			{
				Dbg("unknown cdol tag...%x",cdol.value[i]);
				memset(tmpBuf+lenCDOL,0,cdol.value[i+1]);
			}
			//memcpy(tmpBuf+lenCDOL,test,cdol.value[i+1]);
			lenCDOL += cdol.value[i+1];
			i += 2;
		}
	}
	pBYTE = new BYTE[lenCDOL];
	memcpy(pBYTE,tmpBuf,lenCDOL);
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	HexBuf2StrBuf(pBYTE,&show,lenCDOL);
	Dbg("filled..cdol[%s],len[%d]",show,lenCDOL);
	return true;
}
int CCardProcess::IssueBankAuth(CardReadType eType,DeviceBaseClass *pCardX)
{
	LOG_FUNCTION();
	//如果联机授权响应包含发卡行认证数据&卡和终端支持发卡行认证
	if (AIP_ISSUER_BANK_AUTH != m_AIP[0]&AIP_ISSUER_BANK_AUTH)
	{
		Dbg("Term don't support issuer bank authorize.");
		return -1;//oiltmp ?
	}
	m_TSI[0] |= TSI_ISSUER_BANK_AUTH;
	BYTE p1,p2;
	p1 = p2 = 0x00;
	LPBYTE pData = NULL;
	int iH1,iH2,iL1,iL2,sizeARPC;
	iH1 = iH2 = iL1 = iL2 = sizeARPC = 0;
	vector<FormUnit>::iterator it;
	bool bARPC,bARC;
	bARPC = bARC = false;
	for (it = m_vOnlineReplyData.begin(); it != m_vOnlineReplyData.end(); ++it)
	{
		if (!_strnicmp(it->pFst,"ARPC",it->fstSize))
		{
			pData = new BYTE[it->sndSize/2+1+1];
			ZeroMemory(pData,it->sndSize/2+1+1);
			int ret = StrBuf2HexBuf(it->pSnd,&pData);
			if (ret == 0)
			{
				Dbg("Wrong ARPC size.");
				delete []pData;
				return -1;
			}
			sizeARPC = it->sndSize/2;
			bARPC = true;
		}
		else if (!_strnicmp(it->pFst,"ARC",it->fstSize))
		{
			iH1 = char2int(*(it->pSnd));
			iL1 = char2int(*(it->pSnd+1));
			iH2 = char2int(*(it->pSnd+2));
			iL2 = char2int(*(it->pSnd+3));
			bARC = true;
		}
	}
	if (!bARPC || !bARC)
	{
		Dbg("no arpc or arc(%d)(%d).",bARPC,bARC);
		return -1;
	}
	pData[sizeARPC] = iH1*16 + iL1;
	pData[sizeARPC+1] = iH2*16 + iL2;
	BYTE lc = sizeARPC + 2;
	Dbg("issue bank authorize lc [%d]",lc);
	ConstructAPDU(CLS_EX_AUTH,INS_EX_AUTH,p1,p2,lc,pData,NULL);
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	int lenRecv;
	BYTE* recvBuf = new BYTE[1024];
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		HexBuf2StrBuf(recvBuf,&show,lenRecv);
		Dbg("issue bank auth[%s]",show);
		if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
		{
		}
		else
		{
			Dbg("issue bank auth failed.");
			m_TVR[4] |= TVR_ISSUER_BANK_AUTH_FAIL;
			return -1;
		}
	}

	return 0;
	//if (recvBuf != NULL)
	//{
	//	delete []recvBuf;
	//	recvBuf = NULL;
	//}
}
void CCardProcess::ExecuteIssuerScript(CardReadType eType,DeviceBaseClass *pCardX)
{
	vector<FormUnit>::iterator it;
	PBYTE pScript = NULL;
	for (it = m_vOnlineReplyData.begin(); it != m_vOnlineReplyData.end(); ++it)
	{
		if (!_strnicmp(it->pFst,"SCRIPT",it->fstSize))
		{
			pScript = new BYTE[it->sndSize/2+1];
			ZeroMemory(pScript,it->sndSize/2+1);
			int ret = StrBuf2HexBuf(it->pSnd,&pScript);
			if (ret == 0)
			{
				Dbg("Wrong issuer script size.");
				delete []pScript;
				return;
			}
			if (pScript[0] != 0x72)
			{
				Dbg("Wrong issuer script.");
				delete []pScript;
				return;
			}
		}
	}
	if (pScript == NULL)
	{
		Dbg("No script?");
		return;
	}

	CardIssuerClass *pCardI;
	CardSwiperClass *pCardS;
	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
	}
	int len = pScript[1];
	for (int i = 2; i < len;)
	{
		if (pScript[i] == 0x86)
		{
			i++;
			int cmdLen = pScript[i];
			CmdInfo cmdSend,cmdRecv;
			cmdSend.dwSize = cmdLen;
			memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
			i++;
			memcpy(cmdSend.data,(void*)(pScript+i),cmdLen);
			//the following just for test oiltmp
			char* show = new char[MAX_TEST_SHOW];
			ZeroMemory(show,MAX_TEST_SHOW);
			HexBuf2StrBuf(cmdSend.data,&show,cmdSend.dwSize);
			Dbg("issuer script[%s].",show);
			delete []show;
			//
			if (eType == CARD_MACHINE_ISSUER)
			{
				eErr = pCardI->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER)
			{
				eErr = pCardS->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_RFIC)
			{
				eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER_RF)
			{
				eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
			}
			if (eErr == Error_Succeed)
			{
				if (cmdRecv.data[cmdRecv.dwSize-2] == 0x90 || cmdRecv.data[cmdRecv.dwSize-2] == 0x62)
				{
					Dbg("Execute script command [%d][%d].",cmdRecv.data[cmdRecv.dwSize-2],cmdRecv.data[cmdRecv.dwSize-1]);
				}
				else
				{
					Dbg("Execute script command error [%d][%d].",cmdRecv.data[cmdRecv.dwSize-2],cmdRecv.data[cmdRecv.dwSize-1]);
				}
			}
			else
			{
				Dbg("ICCommand failed.[%d]",eErr);
			}
			i += cmdLen;
		}
		else
			i++;
	}
	if (pScript != NULL)
		delete []pScript;
}
int CCardProcess::TransEnd(CardReadType eType,DeviceBaseClass *pCardX,bool bCDA)
{
	LOG_FUNCTION();
	int procResult = 0;
	//second genarate ac
	ICData cdol2(false,0x8d,0x00);
	if (ToFindTagValue(m_vICData,cdol2,0,0,m_vICData.size()-1) == -1)
	{
		Dbg("can't find cdol2.");
		return -1;
	}
	//find arc to decide P1 (currently no CDA)
	//'00','10','11'-->TC
	//'01','02',other -->AAC
	BYTE p1;
	vector<FormUnit>::iterator it;
	for (it = m_vOnlineReplyData.begin(); it != m_vOnlineReplyData.end(); ++it)
	{
		if (!_strnicmp(it->pFst,"ARC",it->fstSize))
		{
			if (!_strnicmp(it->pSnd,"00",it->sndSize) || !strnicmp(it->pSnd,"10",it->sndSize) || !strnicmp(it->pSnd,"11",it->sndSize))
				p1 = P1_GENAC_TC;
			else
				p1 = P1_GENAC_AAC;
		}
	}
	PBYTE pCDOL2;
	DWORD lenCDOL2=0;
	FillCDOL(cdol2,pCDOL2,lenCDOL2);
	ConstructAPDU(CLS_GENAC,INS_GENAC,p1,0x00,lenCDOL2,pCDOL2,0x00);
	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
	HexBuf2StrBuf(cmdSend.data,&show,m_lenAPDU);
	Dbg("2nd GenAc cmd[%s]",show);

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	Dbg("2nd gen ac rc[%d]",eErr);
	bool bGenAC = false;
	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		ZeroMemory(show,MAX_TEST_SHOW);
		HexBuf2StrBuf(recvBuf,&show,lenRecv);
		Dbg("2ndGenAc recv[%s]",show);
		if (recvBuf[lenRecv-2] == 0x61)
		{
			BYTE btLen = recvBuf[lenRecv-1];
			ConstructAPDU(CLS_GET_RESPONSE,INS_GET_RESPONSE,0x00,0x00,NULL,NULL,&btLen);
			CmdInfo cmdSend,cmdRecv;
			cmdSend.dwSize = m_lenAPDU;
			memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
			memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);
			ZeroMemory(show,MAX_TEST_SHOW);
			HexBuf2StrBuf(cmdSend.data,&show,m_lenAPDU);
			Dbg("get response cmd[%s]",show);
			if (eType == CARD_MACHINE_ISSUER)
			{
				eErr = pCardI->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER)
			{
				eErr = pCardS->ICCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_RFIC)
			{
				eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
			}
			else if (eType == CARD_MACHINE_SWIPER_RF)
			{
				eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
			}
			if (eErr == Error_Succeed)
			{
				ZeroMemory(show,MAX_TEST_SHOW);
				ZeroMemory(recvBuf,1024);
				memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
				lenRecv = cmdRecv.dwSize;
				HexBuf2StrBuf(recvBuf,&show,lenRecv);
				//Dbg("get response recv[%s]",show);
				if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
					bGenAC = true;
			}
		}
		else if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
			bGenAC = true;
		else if (recvBuf[lenRecv-2] == 0x69 && recvBuf[lenRecv-1] == 0x85)
		{
			Dbg("no more than 2 generate ac command");
			return -1;
		}
		if (bGenAC)
		{
			ExecuteIssuerScript(eType,pCardX);
			//to send back issuer script execute result? oiltmp
			//form2 '77'暂不考虑
			//form1 '80'
			if (recvBuf[0] == 0x80)
			{
				//2nd gen ac response:CID,ATC,AC,[ISSUER...],CVR
				//80 1e 80 0008 328ab54bfc986b85 07010103a0b000010a010000000000754048769000
				//密文信息数据 1B,ATC 2B,AC 8B,发卡行数据 opt
				//暂不执行CDA oiltmp
				BYTE cryptInfo = recvBuf[2];
				if (p1 == P1_GENAC_AAC)
				{
					//reject trans
				}
				else if (p1 == P1_GENAC_TC)
				{
					//if response is tc,as no CDA,trans end
					//else if response is aac,reject trans and send reversal

					if ((cryptInfo&0xc0) == P1_GENAC_TC)
						procResult = 0;
					else if ((cryptInfo&0xc0) == P1_GENAC_AAC)
					{
						//to be added... oiltmp
						procResult = 1;
					}
				}
			}
		}
	}

	if (recvBuf != NULL)
		delete []recvBuf;
	if (show != NULL)
		delete []show;
	return procResult;
}
void CCardProcess::GetBaseInfoNotInRecord(CardReadType eType,DeviceBaseClass *pCardX)
{
	char* show = new char[MAX_TEST_SHOW];
	ZeroMemory(show,MAX_TEST_SHOW);
	BYTE zz = 0x00;
	BYTE le = 0x00;
	ConstructAPDU(0x80,0xca,0x9f,0x36,NULL,NULL,&le);
	int lenRecv;
	LPBYTE recvBuf = new BYTE[1024];

	CmdInfo cmdSend,cmdRecv;
	cmdSend.dwSize = m_lenAPDU;
	memset(cmdSend.data,0,MAX_IC_BUFFER_SIZE);
	memcpy(cmdSend.data,m_APDUsendBuf,m_lenAPDU);

	ErrorCodeEnum eErr;
	if (eType == CARD_MACHINE_ISSUER)
	{
		pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		eErr = pCardI->ICCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
	{
		pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		if (eType == CARD_MACHINE_SWIPER)
			eErr = pCardS->ICCommand(cmdSend,cmdRecv);
		else if (eType == CARD_MACHINE_SWIPER_RF)
			eErr = pCardS->RFTypeABCommand(cmdSend,cmdRecv);
	}
	else if (eType == CARD_MACHINE_RFIC)
	{
		pCardR = dynamic_cast<RFICClass*>(pCardX);
		eErr = pCardR->RFTypeABCommand(cmdSend,cmdRecv);
	}

	if (eErr == Error_Succeed)
	{
		memcpy(recvBuf,cmdRecv.data,cmdRecv.dwSize);
		lenRecv = cmdRecv.dwSize;
		HexBuf2StrBuf(recvBuf,&show,lenRecv);
		Dbg("base info not in record[%s]",show);
		if (recvBuf[lenRecv-2] == 0x90 && recvBuf[lenRecv-1] == 0x00)
		{

		}
	}
}
void CCardProcess::SplitBusinessData(const char *pData,int size)
{
	//not support ultra-lenth!!!oilyang
	PBYTE pBtData = new BYTE[MAX_IC_BUFFER_SIZE];
	ZeroMemory(pBtData,MAX_IC_BUFFER_SIZE);
	int len = StrBuf2HexBuf(pData,&pBtData);
	for (int i = 0; i < len;)
	{
		if (IsDoubleByteFlag(*(pBtData+i)))
		{
			int dataLen = *(pBtData+i+2);
			ICData data(false,*(pBtData+i),*(pBtData+i+1));
			data.value = new BYTE[dataLen];
			data.lenth = dataLen;
			ZeroMemory(data.value,dataLen);
			memcpy(data.value,pBtData+i+3,dataLen);
			m_vBusData.push_back(data);
			i = i + dataLen + 2 + 1;
		}
		else
		{
			int dataLen = *(pBtData+i+1);
			ICData data(false,*(pBtData+i),0x00);
			data.value = new BYTE[dataLen];
			data.lenth = dataLen;
			ZeroMemory(data.value,dataLen);
			memcpy(data.value,pBtData+i+2,dataLen);
			m_vBusData.push_back(data);
			i = i + dataLen + 1 + 1;
		}
	}

	return ;
}
int CCardProcess::SplitOnlineReplyData(const char *pData,int size)
{
	//"ARPC,34A2BE5D78C32EE8|ARC,00|SCRIPT,32423424"
	m_vOnlineReplyData.clear();
	int ret = SplitFormString(m_vOnlineReplyData,pData,size,',','|');
	if (ret != 0)
	{
		Dbg("Split form string failed.");
		return -1;
	}
	return 0;
}
int CCardProcess::DetectAndReadICData(CardReadType eType, DeviceBaseClass* pCardX, CAutoArray<CSimpleStringA>pAIDs, int& cardType)
{
	LOG_FUNCTION();
	bool bIC = DetectIfICCard(eType,pCardX,cardType);
	if (!bIC)
	{
		Dbg("not ic card.");
		return -1;
	}
	bool bGetICData = false;
	bGetICData = GetICDataFromCard(eType, pCardX, pAIDs);
	if (!bGetICData)
	{
		Dbg("GetICDataFromCard failed.");
		return -2;
	}
	GetBaseInfoNotInRecord(eType,pCardX);

	return 0;
}
bool CCardProcess::GetICDataFromCard(CardReadType eType, DeviceBaseClass* pCardX, CAutoArray<CSimpleStringA> pAIDs)
{
	LOG_FUNCTION();
	AIDData aidData;
	aidData.aid = new BYTE[32];//oiltmp
	memset(aidData.aid, 0, 32);
	for (int index = 0; index < pAIDs.GetCount(); ++index)
	{
		int aidLen = StrBuf2HexBuf(pAIDs[index].GetData(), &aidData.aid);

		Dbg("str2hex len[%d]", aidLen);
		aidData.len = aidLen;
		char* aidTest = new char[128];
		int aidStrLen = HexBuf2StrBuf(aidData.aid, &aidTest, 5);
		Dbg("hex2str len[%d]", aidStrLen);
		Dbg("aid[%s][%s]", pAIDs[index].GetData(), aidTest);
		vector<AIDData> vAIDs;
		vAIDs.push_back(aidData);

		ErrorCodeEnum eErr = Error_Unexpect;
		if (eType == CARD_MACHINE_ISSUER)
		{
			pCardI = dynamic_cast<CardIssuerClass*>(pCardX);
		}
		else if (eType == CARD_MACHINE_SWIPER || eType == CARD_MACHINE_SWIPER_RF)
		{
			pCardS = dynamic_cast<CardSwiperClass*>(pCardX);
		}
		else if (eType == CARD_MACHINE_RFIC)
		{
			pCardR = dynamic_cast<RFICClass*>(pCardX);
		}
		eErr = BuildSupportedAppList(eType, pCardX, vAIDs);

		Dbg("size = %d", vAIDs.size());
		for (size_t i = 0; i < vAIDs.size(); ++i)
		{
			char* aidTest1 = new char[128];
			int aidlen = HexBuf2StrBuf(vAIDs[i].aid, &aidTest1, vAIDs[i].len);
			Dbg("aidTest = %s", aidTest1);
			delete[] aidTest1;
		}

		if (eErr != Error_Succeed)
		{
			DevErrorInfo devErr;
			ZeroMemory(devErr.szErrMsg, sizeof(devErr.szErrMsg));
			if (eType == CARD_MACHINE_ISSUER)
				pCardI->GetLastErr(devErr);
			else if (eType == CARD_MACHINE_SWIPER)
				pCardS->GetLastErr(devErr);
			else if (eType == CARD_MACHINE_RFIC)
				pCardR->GetLastErr(devErr);
			Dbg("BuildSupportedAppList failed %d, %s.", eErr, devErr.szErrMsg);
			continue;
		}
		//Dbg("[%s]",testIC);
		eErr = AppSelected(eType, pCardX, vAIDs.at(0).aid, vAIDs.at(0).len);
		if (eErr == Error_Succeed)
			return true;
		else
		{
			Dbg("AppSelected failed(%d).", eErr);
			continue;
		}
	}
	return false;
}
int CCardProcess::ConstructARQCData(const char *pATC, char *&pDataToARQC, char *&pSomeICData)
{
	//9f0206 9f0306 9f1a02 9505 5f2a02 9a03 9c01 9f3704 9f2103 9f4e14
	//9f0206授权金额 ( 6 )， 9f0306其它金额 （ 6）， 9f1a02终端国家代码（ 2）
	//，5f2a02交易货币代码（ 2）， 9a03交易日期（ 3）， 9c01交易类型（ 1），
	pDataToARQC = new char[1024];
	ZeroMemory(pDataToARQC,1024);
	Dbg("atc %s",pATC);
	ICData authAmount(false,0x9f,0x02),otherAmount(false,0x9f,0x03),ctyCode(false,0x9f,0x1a)
		,currCode(false,0x5f,0x2a),transTime(false,0x9f,0x21),transDate(false,0x9a,0x00)
		,transType(false,0x9c,0x00);
	PBYTE tmpARQCData = new BYTE[512];
	PBYTE tmpSomeICData = new BYTE[512];
	ZeroMemory(tmpARQCData,512);
	ZeroMemory(tmpSomeICData, 512);
	int len = 0, iclen = 0;
	tmpSomeICData[iclen++] = 0x9f;
	tmpSomeICData[iclen++] = 0x02;
	tmpSomeICData[iclen++] = 0x06;
	if (ToFindTagValue(m_vBusData, authAmount, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, authAmount.value, authAmount.lenth);
		memcpy(tmpSomeICData + iclen, authAmount.value, authAmount.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 6);
		memset(tmpSomeICData + iclen, 0, 6);
	}
	len += 6;
	iclen += 6;

	tmpSomeICData[iclen++] = 0x9f;
	tmpSomeICData[iclen++] = 0x03;
	tmpSomeICData[iclen++] = 0x06;
	if (ToFindTagValue(m_vBusData, otherAmount, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, otherAmount.value, otherAmount.lenth);
		memcpy(tmpSomeICData + iclen, otherAmount.value, otherAmount.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 6);
		memset(tmpSomeICData + iclen, 0, 6);
	}
	len += 6;
	iclen += 6;
	//terminal country code "0156"
	tmpSomeICData[iclen++] = 0x9f;
	tmpSomeICData[iclen++] = 0x1a;
	tmpSomeICData[iclen++] = 0x02;
	if (ToFindTagValue(m_vBusData, ctyCode, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, ctyCode.value, ctyCode.lenth);
		memcpy(tmpSomeICData + iclen, ctyCode.value, ctyCode.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 2);
		memset(tmpSomeICData + iclen, 0, 2);
	}
	len += 2;
	iclen += 2;
	//TVR
	tmpSomeICData[iclen++] = 0x95;
	tmpSomeICData[iclen++] = 0x05;
	memcpy(tmpARQCData + len,m_TVR,5);
	memcpy(tmpSomeICData + iclen, m_TVR, 5);
	len += 5;
	iclen += 5;
	//currency code
	tmpSomeICData[iclen++] = 0x5f;
	tmpSomeICData[iclen++] = 0x2a;
	tmpSomeICData[iclen++] = 0x02;
	if (ToFindTagValue(m_vBusData, currCode, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, currCode.value, currCode.lenth);
		memcpy(tmpSomeICData + iclen, currCode.value, currCode.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 2);
		memset(tmpSomeICData + iclen, 0, 2);
	}
	len += 2;
	iclen += 2;
	//trans date
	tmpSomeICData[iclen++] = 0x9a;
	tmpSomeICData[iclen++] = 0x03;
	if (ToFindTagValue(m_vBusData, transDate, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, transDate.value, transDate.lenth);
		memcpy(tmpSomeICData + iclen, transDate.value, transDate.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 3);
		memset(tmpSomeICData + iclen, 0, 3);
	}
	len += 3;
	iclen += 3;
	//trans type
	tmpSomeICData[iclen++] = 0x9c;
	tmpSomeICData[iclen++] = 0x01;
	if (ToFindTagValue(m_vBusData, transType, false, 0, m_vBusData.size() - 1) != -1)
	{
		memcpy(tmpARQCData + len, transType.value, transType.lenth);
		memcpy(tmpSomeICData + iclen, transType.value, transType.lenth);
	}
	else
	{
		memset(tmpARQCData + len, 0, 1);
		memset(tmpSomeICData + iclen, 0, 1);
	}
	len += 1;
	iclen += 1;
	//for temp oiltmp
	tmpARQCData[len++] = m_randData[0];
	tmpARQCData[len++] = m_randData[1];
	tmpARQCData[len++] = m_randData[2];
	tmpARQCData[len++] = m_randData[3];
	tmpSomeICData[iclen++] = 0x9f;
	tmpSomeICData[iclen++] = 0x37;
	tmpSomeICData[iclen++] = 0x04;
	tmpSomeICData[iclen++] = m_randData[0];
	tmpSomeICData[iclen++] = m_randData[1];
	tmpSomeICData[iclen++] = m_randData[2];
	tmpSomeICData[iclen++] = m_randData[3];

	//aip
	tmpARQCData[len++] = m_AIP[0];
	tmpARQCData[len++] = m_AIP[1];
	tmpSomeICData[iclen++] = 0x82;
	tmpSomeICData[iclen++] = 0x02;
	tmpSomeICData[iclen++] = m_AIP[0];
	tmpSomeICData[iclen++] = m_AIP[1];
	//ATC
	PBYTE tmpATC = new BYTE[2];
	ZeroMemory(tmpATC,2);
	StrBuf2HexBuf(pATC,&tmpATC);
	tmpARQCData[len++] = tmpATC[0];
	tmpARQCData[len++] = tmpATC[1];
	tmpSomeICData[iclen++] = 0x9f;
	tmpSomeICData[iclen++] = 0x36;
	tmpSomeICData[iclen++] = 0x02;
	tmpSomeICData[iclen++] = tmpATC[0];
	tmpSomeICData[iclen++] = tmpATC[1];
	//CVR  oiltmp 20140415
	//03A0B000
	tmpARQCData[len++] = m_CVR[0];
	tmpARQCData[len++] = m_CVR[1];
	tmpARQCData[len++] = m_CVR[2];
	tmpARQCData[len++] = m_CVR[3];
	Dbg("term2arqcdata,len[%d]",len);
	HexBuf2StrBuf(tmpARQCData,&pDataToARQC,len);
	HexBuf2StrBuf(tmpSomeICData, &pSomeICData, iclen);
	//Dbg("[%s]",pDataToARQC);
	if (tmpARQCData != NULL)
	{
		delete[]tmpARQCData;
	}
	return len;
}
int CCardProcess::FindTagValue(TagVectorType eType,ICData& data,bool bLevel,int start,int end)
{
	switch(eType)
	{
	case TAG_VECTOR_IC:
		return ToFindTagValue(m_vICData,data,bLevel,start,m_vICData.size()-1);
		break;
	case TAG_VECTOR_BUS:
		return ToFindTagValue(m_vBusData,data,bLevel,start,m_vBusData.size()-1);
		break;
	default:
		break;
	}
	return -1;
}
int CCardProcess::ToFindTagValue(vector<ICData>& vData,ICData& data,bool bLevel,int start,int end)
{
	//LPBYTE pData = *data;
	int ret = -1;
	vector<ICData>::iterator it = vData.begin();
	if (start < 0 || start >= vData.size())
		return ret;

	for (it += start,ret = start; it != vData.end(); ++it,++ret)
	{
		if (ret > end)
			break;
		if (bLevel && data.level != it->level)
			continue;
		if (data.bForm && it->bForm)
		{
			if (data.tag[0] == it->tag[0] && data.tag[1] == it->tag[1])
			{
				data.bForm = true;
				data.level = it->level;
				return ret;
			}
			else
				continue;
		}
		else if(!data.bForm && !it->bForm)
		{
			if (data.tag[0] == it->tag[0] && data.tag[1] == it->tag[1])
			{
				data.bForm = false;
				data.value = new BYTE[it->lenth];
				memcpy(data.value,it->value,it->lenth);
				data.lenth = it->lenth;
				data.level = it->level;
				return ret;
			}
			else
				continue;
		}
	}
	return -1;
}

void CCardProcess::ConstructAPDU(BYTE cls,BYTE ins,BYTE p1,BYTE p2,BYTE lc,LPBYTE data,LPBYTE le)
{
	ZeroMemory(m_APDUsendBuf,sizeof(m_APDUsendBuf));
	m_lenAPDU = 0;
	m_APDUsendBuf[0] = cls;
	m_APDUsendBuf[1] = ins;
	m_APDUsendBuf[2] = p1;
	m_APDUsendBuf[3] = p2;
	m_lenAPDU = 4;
	if (lc != NULL && data != NULL)
	{
		m_APDUsendBuf[4] = lc;
		m_lenAPDU++;
		if (lc != 0)
		{
			memcpy(m_APDUsendBuf+m_lenAPDU,data,lc);
			m_lenAPDU += lc;
		}
	}
	if (le != NULL)
		m_APDUsendBuf[m_lenAPDU++] = (*le);
	if (!data)
	{
		delete[] data;
		data = NULL;
	}
}
int StrBuf2HexBuf(LPCTSTR strBuf,PBYTE* hexBuf)
{
	int len = strlen(strBuf);
	if (len == 0 || len%2 != 0)
		return 0;
	BYTE* buf = new BYTE[len/2];
	if (buf == NULL)
		return 0;
	int j = 0;
	for (int i = 0; i < len;)
	{
		int tmpVal;
		sscanf(strBuf+i,"%2X",&tmpVal);
		buf[j] = tmpVal;
		//buf[j] = char2int(strBuf[i])*16 + char2int(strBuf[i+1]);
		i += 2;
		j++;
	}
	//memcpy(buf,strBuf,len);
	*hexBuf = buf;
	return j;
}
int HexBuf2StrBuf(PBYTE hexBuf,char** strBuf,DWORD len)
{
	char* tmpStr = *strBuf;
	int count = 0;
	for (int i = 0; i < len; ++i)
	{
		sprintf(tmpStr+count,"%0.2X",hexBuf[i]);
		count += 2;
	}
	return 0;
}