void CMultiXProcess::OnNewMsgFromTpm(CMultiXAppMsg &AppMsg)
{
if(Owner()->TpmProcID() == 0)
Owner()->m_TpmProcID = this->ProcessID();
if(Owner()->TpmProcID() != this->ProcessID())
{
Reject();
} else
{
switch(AppMsg.MsgCode())
{
case CMultiXTpmCtrlMsg::ConfigDataMsgCode :
{
OnTpmConfigData(AppMsg);
break;
}
case CMultiXTpmCtrlMsg::ProcessShutdownMsgCode :
OnPrepareForShutdown(AppMsg);
break;
case CMultiXTpmCtrlMsg::ProcessRestartMsgCode :
OnProcessRestart(AppMsg);
break;
case CMultiXTpmCtrlMsg::ProcessSuspendMsgCode :
OnProcessSuspend(AppMsg);
break;
case CMultiXTpmCtrlMsg::ProcessResumeMsgCode :
OnProcessResume(AppMsg);
break;
}
}
AppMsg.Reply(MultiXNoError);
}
void CISO8583AcquirerGatewayFEServerSession::OnNetworkManagementRequest(CMultiXAppMsg &Msg)
{
CISO8583Msg ISOMsg;
CISO8583Msg::TValidationError Error = ISOMsg.FromISO((const byte_t *)Msg.AppData(),Msg.AppDataSize());
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
return;
}
/*
Since Network Management messages include the destination gateway ID, we use it to find the link associated with this gateway.
*/
int ReplyError = ErrUnableToForwardMsg;
CISO8583AcquirerGatewayFELink *Link = Owner()->FindReadyLink(ISOMsg.TransactionDestinationInstitutionIdentificationCode());
if(Link)
{
std::string MsgKey = ISOMsg.STAN() + ISOMsg.DateTimeLocal() + ISOMsg.TransactionOriginatorInstitutionIdentificationCode();
ReplyError = Link->Forward(Msg,MsgKey);
}
if(ReplyError == 0)
{
Msg.Keep();
} else
{
Msg.Reply(ReplyError);
}
}
void CISO8583BackEndServerSession::OnSendMsgFailed(CMultiXAppMsg &FailedMsg,bool bTimeout)
{
/*
If we forwarded a message to another process, we need to check the failure and decide what to do.
*/
switch(CISO8583Msg::VersionIndependentMTI(FailedMsg.MsgCode())) // this will give us version independent MTI
{
case CISO8583Msg::MTIAuthorizationMessageRequest :
case CISO8583Msg::MTIReversalMessageAdvice :
case CISO8583Msg::MTIReversalMessageAdviceRepeat :
{
/*
These are all messages we received from acquirer gateways or acquirers in general,
and failed to forward them to remote gateways/issuers, so we respond to the acquirer
with an error indicating that we were unable to forward the request.
*/
// We extract the acquirer we saved when we forwarded the message.
CMultiXAppMsg *AcquirerMsg = (CMultiXAppMsg *)FailedMsg.SavedContext();
AcquirerMsg->Reply(CISO8583Msg::ForwardToIssuerFailed);
delete AcquirerMsg; // WE MUST DELETE THE MESSAGE BECAUSE WE CALLED "Keep()" BEFORE WE FORWARDED IT.
}
break;
}
}
void CISO8583AuthorizerServerSession::OnNewMsg(CMultiXAppMsg &Msg)
{
DebugPrint(1,"New Message Received\n");
switch(CISO8583Msg::VersionIndependentMTI(Msg.MsgCode())) // we check the ISO8583 Version independent MTI value
{
case CISO8583Msg::MTIAuthorizationMessageRequest :
case CISO8583Msg::MTIFinancialMessageRequest :
{
// If we have an ISO 8583 Msg Code, we try to parse the msg to make sure that
// we have a valid ISO 8583
CISO8583Msg ISOMsg;
CISO8583Msg::TValidationError Error = ISOMsg.FromISO((const byte_t *)Msg.AppData(),Msg.AppDataSize());
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
} else if(ISOMsg.Version() != CISO8583Msg::ISO8583_1_1987) // we Support only 1987 version
{
Msg.Reply(CISO8583Msg::VersionNotSupported);
} else
{
OnISO8583Msg(Msg,ISOMsg);
}
}
break;
default :
// We do not know this message, reply with error
Msg.Reply(CISO8583Msg::MTINotSupported);
break;
}
}
bool CMultiXAppMsg::Reply(MultiXError Error,int32_t MsgCode, const CMultiXBufferArray &Bufs, int Flags,int Priority, uint32_t Timeout, void *Context,TMultiXProcID RoutedFrom)
{
if(ReplySent())
return false;
if(!this->NotifyAny())
return false;
if(!m_pProcess->SenderEnabled())
return false;
if(m_pProcess->RestartCount() != m_OwnerInstance)
return false;
if(RoutedFrom == 0)
RoutedFrom = m_pProcess->Owner()->ProcessID();
CMultiXAppMsg *Msg = m_pProcess->CreateNewAppMsg();
m_pProcess->AddToMsgQueue(m_pProcess->m_pOutQueue, Msg);
Msg->AllocateL7XMsg(MsgCode);
Msg->AddReceiverMsgID(this->SenderMsgID());
if(this->IsCtrlMsgFromTpm())
Flags |= FlagControlToTpm;
else if(this->IsCtrlMsgToTpm())
Flags |= FlagControlFromTpm;
if(Bufs.Count() == 0)
Flags &= ~CMultiXAppMsg::FlagResponseRequired;
Msg->AddInfo(Bufs,Flags | FlagMsgIsResponse,this->m_SessionID,Priority,Timeout,Context,Error,RoutedFrom,NULL,NULL,NULL,NULL);
if(Msg->NotifyAny())
m_pProcess->Send(*Msg);
else
{
m_pProcess->Send(*Msg);
delete Msg;
}
SetReplySent(true);
return true;
}
/*
This function is called when we receive a valid ISO 8583 Message. Here we check the specific MTI and call the appropriate
function to handle the request.
*/
void CISO8583AuthorizerServerSession::OnISO8583Msg(CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
// First we make sure that we have a connected database
if(!Owner()->DBConnected())
{
Msg.Reply(CISO8583Msg::NoDatabaseConnection);
return;
}
// Here we check for specific message codes(MTI values) and if we support the specific code,
// we call a handler function, otherwise we reply with error
switch(ISOMsg.VersionIndependentMTI())
{
case CISO8583Msg::MTIAuthorizationMessageRequest :
OnAuthorizationRequest(Msg,ISOMsg);
break;
case CISO8583Msg::MTIFinancialMessageRequest :
OnSaleRequest(Msg,ISOMsg);
break;
default :
// We do not know this message, reply with error
Msg.Reply(CISO8583Msg::MTINotSupported);
break;
}
}
void CMultiXWSServerServerSession::OnNewMsg(CMultiXAppMsg &Msg)
{
DebugPrint(1,"New Message Received\n");
if(!Msg.IsWebServiceCall())
{
DebugPrint(1,"Error Reply TpmErrMsgNotSupported\n");
Msg.Reply(TpmErrMsgNotSupported);
return;
}
try
{
if(m_pStream == NULL)
m_pStream = new CMultiXWSStream(Msg.WSDllFile(),*this);
bool bSuccess = m_pStream->CallServiceNoWait(Msg);
if(!bSuccess)
{
Owner()->Logger()->ReportError(DebugPrint(0,"Error on CallServiceNoWait\n"));
Msg.Reply(WSErrgSoapDllNotFound);
}
}catch(...)
{
DebugPrint(1,"Error Reply WSErrgSoapDllNotFound\n");
Msg.Reply(WSErrgSoapDllNotFound);
}
}
void CMultiXProcess::OnGetListeningAddressFailed(CMultiXAppMsg &OriginalMsg)
{
CMultiXMsg Msg(*Owner());
Msg.Append(OriginalMsg.AppData(),OriginalMsg.AppDataSize());
TMultiXProcID ProcID = 0;
Msg.GetItemData(ProcID);
Owner()->OnConnectProcessFailed(ProcID);
}
bool CMultiXWSStream::CallServiceNoWait(CMultiXAppMsg &Msg)
{
if(!IsRunning())
if(!Start())
return false;
CMultiXWSStreamEvent *Ev = new CMultiXWSStreamEvent(CMultiXWSStreamEvent::CallServiceFromMessage);
Msg.Keep();
Ev->m_MsgID = Msg.ID();
QueueEvent(Ev);
return true;
}
void CMultiXProcessAlertableObject::OnTimer(CMultiXTimer *Timer)
{
CMultiXProcessTimer *T = (CMultiXProcessTimer *)Timer;
switch(T->TimerCode())
{
case CMultiXProcessTimer::SendMsgTimerCode :
CMultiXAppMsg *Msg = T->MsgID().GetObject();
if(Msg)
{
OwnerProcess()->m_NonResponding = true;
Msg->SetError(MsgErrTimeout);
T->MsgID().Owner()->CancelMsg(T->MsgID(),true);
}
break;
}
}
void CMultiXProcess::OnSendMsgToTpmFailed(CMultiXAppMsg &OriginalMsg)
{
switch(OriginalMsg.MsgCode())
{
case CMultiXTpmCtrlMsg::GetListeningAddressMsgCode :
OnGetListeningAddressFailed(OriginalMsg);
break;
}
}
void CMultiXProcess::OnDataReplyFromTpmReceived(CMultiXAppMsg &ReplyMsg, CMultiXAppMsg &OriginalMsg)
{
switch(OriginalMsg.MsgCode())
{
case CMultiXTpmCtrlMsg::GetListeningAddressMsgCode :
OnListeningAddressReceived(ReplyMsg);
break;
}
}
//! see CMultiXSession::OnDataReplyReceived
void CISO8583BackEndServerSession::OnDataReplyReceived(CMultiXAppMsg &ReplyMsg,CMultiXAppMsg &ForwardedMsg)
{
DebugPrint(3,"Data Reply Received\n");
/*
We get here when we receive a response for a message we forwarded before. In this case we will forward the response back to
the originator, we do not care for the content, we forward it back almost AS IS except for few fields that
we need to restore because changed them before we forwarded the message, the fields are:
MTI - Convert it to 1993 version.
BMP 7 - Set Transmission time
BMP 11 - restore sender STAN
BMP 12 - Restore sender Date and Time Local
BMP 32 - Restore senders Acquiring Institution Identification Code
*/
/*
In order to restore old values, we need to restore the message we received originaly from the acquirer or from the pos terminal.
this message is saved in the SaveContext() of the ForwardedMsg.
*/
CMultiXAppMsg *AcquirerMsg = (CMultiXAppMsg *)ForwardedMsg.SavedContext();
CISO8583Msg AcquirerISO;
CISO8583Msg ReplyISO;
AcquirerISO.FromISO((const byte_t *)AcquirerMsg->AppData(),AcquirerMsg->AppDataSize());
ReplyISO.FromISO((const byte_t *)ReplyMsg.AppData(),ReplyMsg.AppDataSize());
ReplyISO.SetTimes(time(NULL),true);
ReplyISO.SetDateTimeLocal(AcquirerISO.DateTimeLocal());
ReplyISO.SetSTAN(AcquirerISO.STAN());
ReplyISO.SetAcquiringInstitutionIdentificationCode(AcquirerISO.AcquiringInstitutionIdentificationCode());
ReplyISO.ToISO();
AcquirerMsg->Reply(CISO8583Msg::VersionDependentMTI(CISO8583Msg::ISO8583_2_1993,ReplyMsg.MsgCode()),
ReplyISO.ISOBuffer(),
ReplyISO.ISOBufferSize(),0,0,0,0,0,ReplyMsg.Error());
delete AcquirerMsg; // WE MUST DELETE THE MESSAGE BECAUSE WE CALLED "Keep()" BEFORE WE FORWARDED IT.
/*
we reply the ReplyMsg for the case that the process that replied to us expects to receive a notification that we
received the reply, if it does not wait for the reply, no reply is sent.
*/
ReplyMsg.Reply();
}
void CMultiXProcess::EnableSender(bool bValue)
{
if(SenderEnabled() == bValue)
return;
m_bSenderEnabled = bValue;
if(!SenderEnabled())
{
m_SupportedMsgs.clear();
CMultiXAppMsg *Msg;
m_pOutQueue->Lock();
while(Msg = m_pOutQueue->GetFirst())
{
Msg->SetError(MsgErrCanceled);
CancelMsg(Msg->ID(),false);
}
}
}
void CMultiplexerServerFEServerSession::OnNewMsg(CMultiXAppMsg &Msg)
{
DebugPrint(1,"New Message Received\n");
int ReplyError = ErrUnableToForwardMsg;
CMultiplexerServerFELink *Link = Owner()->FindReadyLink(Msg.MsgCode());
if(Link)
{
ReplyError = Link->Forward(Msg);
}
if(ReplyError == 0)
{
Msg.Keep();
} else
{
Msg.Reply(ReplyError);
}
}
//! see CMultiXSession::OnDataReplyReceived
void CMultiXWSServerServerSession::OnDataReplyReceived(CMultiXAppMsg &ReplyMsg,CMultiXAppMsg &OriginalMsg)
{
DebugPrint(3,"Data Reply Received\n");
/*
We received some response from a process we sent a message to before, or response we sent before to a request, was acknoledged with some data.
*/
// TODO: Add your code to handle the response
ReplyMsg.Reply();
}
void CISO8583AuthorizerServerSession::ForwardToIssuer(int CreditAccountAtIssuer,CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
/*
we get here if we need someone else to authorize the request. In that case we need to forward the request to our Acquirer Gateway Front End.
To do that we need to forward it with a different message code, so MultiXTpm will not forward it back to us. The way we do it,
the message code change is by setting the MTI version field to CISO8583Msg::ISO8583_Private. When the message is received by our
Gateway process, it will revert back to CISO8583Msg::ISO8583_2_1993 and forward it on.
When we forward a request, we do not block for a response, when a response arrives, we get it thru
the event "OnDataReplyReceived". in order to be able to associate the response with the original msg,
we pass a pointer to the original message in the "Context" parameter of the "Send" function, and when
"OnDataReplyReceived" is called, we retrieve this pointer by using "SavedContext()" in the Original msg we sent.
Since MultiX automatically destroys messages it forwards to the application, we must call "Keep()" on
the received message, to prevent it from being destroyed, in that case, when the reply is received, we need
to destroy the original message ourselves.
When we play the role of an acquirer gateway, usualy get the request from the POS terminal, do validation required
and maybe modify some data, and then forward the message to the issuer gateway, in our case, the forward will be to a process
in our system, that will decide to which issuer to forward to, based on that, will use a specific connection to the spcific
issuer gateway.
*/
/*
Before we forward the request, we need to set 3 fields to identify the message as a one sent from this process :
BMP 11 - STAN,
BMP 12 - Times,
BMP 32 - Our Acquirer ID
BMP 42 - our account within the issuer
When we receive the response from the remote gateway/issuer, we must replace these fields again to the orignal values
that the sender set before sending the request to us
*/
ISOMsg.SetTimes(time(NULL));
ISOMsg.SetSTAN(Owner()->GetNextSTAN());
ISOMsg.SetAcquiringInstitutionIdentificationCode(Owner()->MyAcquirerID());
CISO8583ElementValue Value(CISO8583Utilities::ToString(CreditAccountAtIssuer),CISO8583ElementValue::ISO8583ElementTypeNumeric);
ISOMsg.SetCardAcceptorIdentificationCode(Value);
ISOMsg.ToISO();
if(Send(CISO8583Msg::VersionDependentMTI(CISO8583Msg::ISO8583_Private,Msg.MsgCode()),ISOMsg.ISOBuffer(),ISOMsg.ISOBufferSize(),CMultiXAppMsg::FlagNotifyAll,0,0,&Msg))
Msg.Keep();
else
Msg.Reply(ErrUnableToForwardMsg);
}
bool CMultiXProcess::Send(int32_t MsgCode, const CMultiXBufferArray &Bufs,int Flags, const TMultiXSessionID &SessionID,int Priority, uint32_t Timeout, void *Context,TMultiXProcID RoutedFrom,const char *WSURL,const char *WSSoapAction,const char *WSDllFile,const char *WSDllFunction)
{
if(!SenderEnabled())
return false;
CMultiXAppMsg *Msg = CreateNewAppMsg();
AddToMsgQueue(m_pOutQueue,Msg);
Msg->AllocateL7XMsg(MsgCode);
if(RoutedFrom == 0)
RoutedFrom = Owner()->ProcessID();
Msg->AddInfo(Bufs,Flags & (~CMultiXAppMsg::FlagMsgIsResponse),SessionID,Priority,Timeout,Context,MultiXNoError,RoutedFrom,WSURL,WSSoapAction,WSDllFile,WSDllFunction);
if(Msg->NotifyAny())
return Send(*Msg);
else
{
Send(*Msg);
delete Msg;
}
return true;
}
void CMultiXProcess::OnPrepareForShutdown(CMultiXAppMsg &AppMsg)
{
CMultiXMsg Msg(*Owner());
Msg.Append(AppMsg.AppData(),AppMsg.AppDataSize());
int32_t GracePeriod = 0;
while(Msg.Next())
{
switch(Msg.GetItemCode())
{
case CMultiXTpmCtrlMsg::GracePeriodItemCode :
Msg.GetItemData(GracePeriod);
break;
}
}
AppMsg.Reply(MultiXNoError);
Owner()->OnPrepareForShutdown(GracePeriod);
}
void CISO8583AcquirerGatewayFEServerSession::OnNewMsg(CMultiXAppMsg &Msg)
{
DebugPrint(1,"New Message Received\n");
switch(CISO8583Msg::VersionIndependentMTI(Msg.MsgCode()))
{
case CISO8583Msg::MTIAuthorizationMessageRequest :
case CISO8583Msg::MTIFinancialMessageRequest :
case CISO8583Msg::MTIReversalMessageAdviceRepeat :
case CISO8583Msg::MTIReversalMessageAdvice :
OnTransactionRequest(Msg);
break;
case CISO8583Msg::MTINetworkManagementMessageRequestOther :
case CISO8583Msg::MTINetworkManagementMessageRequestAcquirer :
case CISO8583Msg::MTINetworkManagementMessageRequestAcquirerRepeat :
OnNetworkManagementRequest(Msg);
break;
default :
Msg.Reply(ErrInvalidMsgCode);
break;
}
}
void CISO8583AcquirerGatewayFEServerSession::OnTransactionRequest(CMultiXAppMsg &Msg)
{
CISO8583Msg ISOMsg;
CISO8583Msg::TValidationError Error = ISOMsg.FromISO((const byte_t *)Msg.AppData(),Msg.AppDataSize());
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
return;
}
if(Owner()->DebugLevel() >= 5)
{
std::string S;
ISOMsg.Dump(S);
DebugPrint(2,"New ISO 8583 Message\n%s\n",S.c_str());
}
/*
When we receive a transaction for forwarding, we have no indication within the message, to which gateway we should forward the message.
It is assumed that there is some mechanism to use the PAN and/or Track2 in order to decide to which gateway we should forward the request.
In this application, we do not use any logic to derive the Gateway ID from these details. We just use a stub routine that gets PAN
as input and returns the gateway ID of the issuer. Using the gateway ID, we look for a link that its RemoteGatewayID() is equal to
the value returned. If we find one and it is signed in, we forward the request to it, otherwise we reply with an error.
*/
int ReplyError = ErrUnableToForwardMsg;
std::string RemoteGatewayID = PANToGatewayID(ISOMsg.PAN());
CISO8583AcquirerGatewayFELink *Link = Owner()->FindReadyLink(RemoteGatewayID);
if(Link)
{
std::string MsgKey = ISOMsg.STAN() + ISOMsg.DateTimeLocal() + ISOMsg.AcquiringInstitutionIdentificationCode();
ReplyError = Link->Forward(Msg,MsgKey);
}
if(ReplyError == 0)
{
Msg.Keep();
} else
{
Msg.Reply(ReplyError);
}
}
void CMultiXProcess::OnListeningAddressReceived(CMultiXAppMsg &AppMsg)
{
CMultiXMsg Msg(*Owner());
Msg.Append(AppMsg.AppData(),AppMsg.AppDataSize());
TMultiXProcID ProcID = 0;
std::string Address;
std::string Port;
while(Msg.Next())
{
switch(Msg.GetItemCode())
{
case CMultiXTpmCtrlMsg::ProcessIDItemCode :
Msg.GetItemData(ProcID);
break;
case CMultiXTpmCtrlMsg::LocalAddressItemCode :
Msg.GetItemData(Address);
break;
case CMultiXTpmCtrlMsg::LocalPortItemCode :
Msg.GetItemData(Port);
break;
}
}
if(ProcID == 0)
return;
CMultiXProcess *Process = Owner()->FindProcess(ProcID);
if(Process != NULL && Process->Connected())
return;
if(Address.empty() ||Port.empty())
{
if(Process)
Process->ConnectRetries()++;
return;
}
TTpmConfigParams Params;
CMultiXTpmLink *Link = new CMultiXTpmLink(Params,false,MultiXOpenModeClient);
Owner()->AddLink(Link);
Link->Connect(Address,Port);
}
CMultiXWSStream::~CMultiXWSStream(void)
{
if(m_pFunctions)
{
m_pFunctions->soap_delete(m_pSoap,NULL);
m_pFunctions->soap_end(m_pSoap);
m_pFunctions->soap_done(m_pSoap);
m_pFunctions->soap_free(m_pSoap);
UnloadgSoapDll(*m_pFunctions);
}
if(m_pInBuf)
m_pInBuf->ReturnBuffer();
if(m_pOutBuf)
m_pOutBuf->ReturnBuffer();
m_pInBuf = NULL;
m_pOutBuf = NULL;
CMultiXAppMsg *pMsg = m_RequestMsgID.GetObject();
if(pMsg)
{
pMsg->Reply(TpmErrMsgCanceled);
delete pMsg;
}
}
void CMultiXProcess::CancelMsg(CMultiXAppMsgID &ID,bool bTimedout)
{
CMultiXAppMsg *Msg = ID.GetObject();
if(Msg)
{
if(Msg->MultiXMsg()->m_SendSem.Initialized())
Msg->MultiXMsg()->m_SendSem.Lock();
ID.RemoveObject();
Msg->m_bKeep = false;
CMultiXSession *Session = Owner()->FindSession(Msg->SessionID());
if(bTimedout)
{
if(Session)
{
if(Msg->IsCtrlMsgToTpm())
OnSendMsgToTpmTimedout(*Msg);
else
Session->OnSendMsgTimedoutNV(*Msg);
} else
{
if(Msg->IsCtrlMsgToTpm())
OnSendMsgToTpmTimedout(*Msg);
else
OnSendMsgTimedout(*Msg);
}
} else
{
if(Session)
{
if(Msg->IsCtrlMsgToTpm())
OnSendMsgToTpmFailed(*Msg);
else
Session->OnSendMsgFailedNV(*Msg);
} else
{
if(Msg->IsCtrlMsgToTpm())
OnSendMsgToTpmFailed(*Msg);
else
OnSendMsgFailed(*Msg);
}
}
if(!Msg->m_bKeep)
delete Msg;
}
}
/*!
see CMultiXSession::OnDataReplyReceived
this reply is for a message or an ACK previously received from the POS terminal.
*/
void CMultiplexerClientFEClientSession::OnDataReplyReceived(CMultiXAppMsg &ReplyMsg,CMultiXAppMsg &OriginalMsg)
{
DebugPrint(2,"Data Reply Received\n");
CMultiplexerClientFELink *pLink = GetLink();
if(!pLink) // probably the link was disconnected before the reply was received
{
int Error = ErrLinkDisconnected;
// TODO: Set an application specific error code
ReplyMsg.Reply(Error);
return;
}
if(ReplyMsg.AppDataSize() == 0) // an empty reply from the server application
{
if(ReplyMsg.Error() != 0)
pLink->OnSessionSendFailed(OriginalMsg,ReplyMsg.Error());
else
pLink->OnSessionSendCompleted(OriginalMsg);
ReplyMsg.Reply(); // just reply to the received msg, in case the sender expects a reply
return;
}
// forward the reply to the associated link
CMultiXBuffer *Buf = Owner()->AllocateBuffer(ReplyMsg.AppData(),ReplyMsg.AppDataSize());
pLink->OnSessionReply(*Buf,OriginalMsg);
Buf->ReturnBuffer();
ReplyMsg.Reply(0);
}
void CISO8583BackEndServerSession::OnISO8583Msg(CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
// Here we check for specific message codes(MTI values) and if we support the specific code,
// we call a handler function, otherwise we reply with error
switch(ISOMsg.VersionIndependentMTI())
{
case CISO8583Msg::MTIAuthorizationMessageRequest :
OnAuthorizationRequest(Msg,ISOMsg);
break;
case CISO8583Msg::MTIReversalMessageAdviceRepeat :
case CISO8583Msg::MTIReversalMessageAdvice :
OnReversalAdvice(Msg,ISOMsg);
break;
case CISO8583Msg::MTINetworkManagementMessageRequestOther :
case CISO8583Msg::MTINetworkManagementMessageRequestAcquirer :
case CISO8583Msg::MTINetworkManagementMessageRequestAcquirerRepeat :
OnNetworkManagementRequest(Msg,ISOMsg);
break;
default :
// We do not know this message, reply with error
Msg.Reply(CISO8583Msg::MTINotSupported);
break;
}
}
bool CMultiXProcess::Send(CMultiXAppMsg &Msg)
{
if(Msg.IsResponse())
{
Msg.MultiXMsg()->SetAsResponse(true);
} else
{
Msg.MultiXMsg()->SetAsResponse(false);
}
if(Msg.m_Timeout > 0)
{
CMultiXProcessTimer *Timer = new CMultiXProcessTimer(CMultiXProcessTimer::SendMsgTimerCode,Msg.m_Timeout,m_pAlertableObject->ID());
Timer->MsgID() = Msg.ID();
Owner()->SetMultiXTimer(Timer);
if(Msg.m_Timeout < 5000)
{
Msg.MultiXMsg()->m_SendSem.Initialize();
}
}
SendMsg(*Msg.MultiXMsg());
return true;
}
void CISO8583BackEndServerSession::OnReversalAdvice(CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
std::string Temp;
byte_t ElementIDs[] = {2,3,4,6,7,10,11,24,25,30,32,37,38,43,49,51,53,54,56,58,64};
// We make sure that no extra elements are found in the request
CISO8583Msg::TValidationError Error = ISOMsg.EnsureOnlyElementIDs(ElementIDs,sizeof(ElementIDs));
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
return;
}
// Check that we have PAN
Temp = ISOMsg.PAN();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::PANIsMissing);
return;
}
// Check that Processing Code exists and is valid.
Temp = ISOMsg.ProcessingCode();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::ProcessingCodeIsMissing);
return;
}
if(!(Temp == "000000" || Temp == "010000" || Temp == "090000"))
{
Msg.Reply(CISO8583Msg::InvalidProcessingCode);
return;
}
// Check the transaction amount for existance and that it does not exceede some Maximum
Temp = ISOMsg.TransactionAmount();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::TransactionAmountIsMissing);
return;
}
if(CISO8583Utilities::ToInt64(Temp) > 99999999)
{
Msg.Reply(CISO8583Msg::TransactionAmountAboveMaximum);
return;
}
// check Transaction Currency.
Temp = ISOMsg.TransactionCurrencyCode();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::TransactionCurrencyIsMissing);
return;
}
if(Temp != "978") // Transaction amount is not in Euro
{
if(ISOMsg.CardholderBillingAmount() == "")
{
Msg.Reply(CISO8583Msg::CardholderBillingAmountIsMissing);
return;
}
if(ISOMsg.CardholderBillingCurrencyCode() != "978")
{
Msg.Reply(CISO8583Msg::CardholderBillingCurrencyIsNotEuro);
return;
}
if(ISOMsg.CardholderBillingConversionRate() == "")
{
Msg.Reply(CISO8583Msg::CardholderBillingConversionRateIsMissing);
return;
}
// Lets validate that the conversion to Euro is done correctly.
int64_t TRAmount = CISO8583Utilities::ToInt64(ISOMsg.TransactionAmount());
int64_t BLAmount = CISO8583Utilities::ToInt64(ISOMsg.CardholderBillingAmount());
int64_t CRate = CISO8583Utilities::ToInt64(ISOMsg.CardholderBillingConversionRate());
int64_t Divisor = CISO8583Utilities::PowerOf10((unsigned int)(CRate / 10000000));
TRAmount *= (CRate % 10000000);
TRAmount /= Divisor;
if(TRAmount != BLAmount)
{
Msg.Reply(CISO8583Msg::CardholderBillingAmountWrong);
return;
}
TRAmount *= CRate;
} else // we must make sure that IDs 6,10,51 are not there
{
if(!(ISOMsg.CardholderBillingAmount() == "" ||
ISOMsg.CardholderBillingCurrencyCode() == "" ||
ISOMsg.CardholderBillingConversionRate() == ""))
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
}
// Check that we got STAN
if(ISOMsg.STAN() == "")
{
Msg.Reply(CISO8583Msg::STANIsMissing);
return;
}
// Check that we got Function Code
if(ISOMsg.FunctionCode() == "")
{
Msg.Reply(CISO8583Msg::FunctionCodeIsMissing);
return;
}
// Check that we have Message Reason Code
if(ISOMsg.MessageReasonCode() == "")
{
Msg.Reply(CISO8583Msg::MessageReasonCodeIsMissing);
return;
}
// Check that we Original Amounts on Partail Reversal
if(ISOMsg.OriginalAmounts() == "" && ISOMsg.FunctionCode() == "401")
{
Msg.Reply(CISO8583Msg::OriginalAmountsIsMissing);
return;
} else
if(ISOMsg.OriginalAmounts() != "" && ISOMsg.FunctionCode() != "401")
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// Check that we got Acquiring Institution Identification Code
if(ISOMsg.AcquiringInstitutionIdentificationCode() == "")
{
Msg.Reply(CISO8583Msg::AcquiringInstitutionIdentificationCodeIsMissing);
return;
}
// Check that we have Retrieval Reference Number
if(ISOMsg.RRN() == "")
{
Msg.Reply(CISO8583Msg::RRNIsMissing);
return;
}
// Check that we have Approval Code
if(ISOMsg.ApprovalCode() == "")
{
Msg.Reply(CISO8583Msg::ApprovalCodeIsMissing);
return;
}
// check that we have Card Acceptor Name/Location
if(ISOMsg.CardAcceptorNameLocation().Size() == 0)
{
Msg.Reply(CISO8583Msg::CardAcceptorNameLocationIsMissing);
return;
}
// check that we have Security Related Control Information, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.SecurityRelatedControlInformation() == "")
{
Msg.Reply(CISO8583Msg::SecurityRelatedControlInformationIsMissing);
return;
}
// check that we have Additional amounts when processing code is "090000"
if(ISOMsg.ProcessingCode() == "090000")
{
if(ISOMsg.AdditionalAmounts().Size() == 0)
{
Msg.Reply(CISO8583Msg::AdditionalAmountsIsMissing);
return;
}
} else if(ISOMsg.AdditionalAmounts().Size() != 0)
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// check that we have Original Data Elements
if(ISOMsg.OriginalDataElements().Size() == 0)
{
Msg.Reply(CISO8583Msg::OriginalDataElementsIsMissing);
return;
}
// check that we have Authorizing Agent Institution Identification Code
if(ISOMsg.AuthorizingAgentInstitutionIdentificationCode().Size() == 0)
{
Msg.Reply(CISO8583Msg::AuthorizingAgentInstitutionIdentificationCodeIsMissing);
return;
}
// check that we have MAC, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.MAC1() == "")
{
Msg.Reply(CISO8583Msg::MAC1IsMissing);
return;
}
/*
After we finished validating the request, we need to decide if we authorize locally or we forward it to
the issuer for authorization
*/
if(AuthorizeLocally(ISOMsg)) // in this example it is always true
{
// We create a new ISO Message
// we will decline this message
CISO8583Msg Rsp;
// We will Dup field from the original message and add/ change the ones that are relevant for the response
Rsp.SetMTI(CISO8583Msg::VersionDependentMTI(CISO8583Msg::ISO8583_2_1993,CISO8583Msg::MTIReversalMessageAdviceResponse)); // this is a response
Rsp.SetPAN(ISOMsg.PAN());
Rsp.SetProcessingCode(ISOMsg.ProcessingCode());
Rsp.SetTransactionAmount(ISOMsg.TransactionAmount());
Rsp.SetCardholderBillingAmount(ISOMsg.CardholderBillingAmount());
Rsp.SetTimes(time(NULL),true); // This will set transmission time
Rsp.SetDateTimeLocal(ISOMsg.DateTimeLocal());
Rsp.SetCardholderBillingConversionRate(ISOMsg.CardholderBillingConversionRate());
Rsp.SetSTAN(ISOMsg.STAN());
Rsp.SetAcquiringInstitutionIdentificationCode(ISOMsg.AcquiringInstitutionIdentificationCode());
Rsp.SetRRN(ISOMsg.RRN());
Rsp.SetActionCode(std::string("909")); // System Mulfunction
Rsp.SetTransactionCurrencyCode(ISOMsg.TransactionCurrencyCode());
Rsp.SetCardholderBillingCurrencyCode(ISOMsg.CardholderBillingCurrencyCode());
Rsp.SetSecurityRelatedControlInformation(std::string("00000007000001FFFF")); // this is a dummy value, real value should be set based on Keys.
Rsp.SetOriginalDataElements(ISOMsg.OriginalDataElements());
Rsp.SetMAC1(std::string("0123456789ABCDEF")); // dummy value, should be based on keys
CISO8583Msg::TValidationError Error = Rsp.ToISO();
if(Error != CISO8583Msg::NoError)
Throw();
// we are done preparing the response, we reply with an MTI = CISO8583Msg::MTIAuthorizationMessageResponse
// and the handling is complete.
Msg.Reply(Rsp.MTI(),Rsp.ISOBuffer(),Rsp.ISOBufferSize());
} else
{
/*
we get here if we need some external processing on behalf of this request, so we forward the request
with a different message code (so MultiXTpm will not forward it back to us). In this case we just set
the msg code to the same MTI but with CISO8583Msg::ISO8583_Private version (in MultiXTpm we must configure this message code !!!).
When we forward a request, we do not block for a response, when a response arrives, we get it thru
the event "OnDataReplyReceived". in order to be able to associate the response with the original msg,
we pass a pointer to the original message in the "Context" parameter of the "Send" function, and when
"OnDataReplyReceived" is called, we retrieve this pointer by using "SavedContext()" in the Original msg.
Since MultiX automatically destroys messages it forwards to the application, we must call "Keep()" on
the received message, to prevent it from being destroyed, in that case, when the reply is received, we need
to destroy the original message ourselves.
When we play the role of an acquirer gateway, we usualy get the request from the POS terminal, do validation required
and maybe modify some data, and then forward the message to the issuer gateway, in our case, the forward will be to a process
in our system, that will decide to which issuer to forward to, based on that, will use a specific connection to the spcific
issuer gateway.
*/
if(Owner()->MyAcquirerID().length() == 0)
Msg.Reply(ErrUnableToForwardMsg);
/*
Before we forward the request, we need to set 3 fields to identify the message as a one sent from this process :
BMP 11 - STAN,BMP 12 - Times, BMP 32 - Our Acquirer ID
When we receive the response from the remote gateway/issuer, we must replace these fields again to the orignal values
that the sender set before sending the request to us
*/
ISOMsg.SetTimes(time(NULL));
ISOMsg.SetSTAN(Owner()->GetNextSTAN());
ISOMsg.SetAcquiringInstitutionIdentificationCode(Owner()->MyAcquirerID());
ISOMsg.ToISO();
if(Send(CISO8583Msg::VersionDependentMTI(CISO8583Msg::ISO8583_Private,Msg.MsgCode()),ISOMsg.ISOBuffer(),ISOMsg.ISOBufferSize(),CMultiXAppMsg::FlagNotifyAll,0,0,&Msg))
Msg.Keep();
else
Msg.Reply(ErrUnableToForwardMsg);
}
}
/*!
This function is called when an authorization request is received from an acquirer gateway or from POS terminal.
When we receive such a message, we do all syntax checking, and if everything is OK, we might process the request locally
or we might forward it to remote Issuer Gateway for authorization.
In this implementation we assume local processing, so we reply we with a fixed response, but the logic
to forward the request and handling the response is there.
*/
void CISO8583BackEndServerSession::OnAuthorizationRequest(CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
std::string Temp;
byte_t ElementIDs[] = {2,3,4,6,7,10,11,12,14,22,23,24,26,32,35,37,41,42,43,49,51,52,53,54,55,59,64};
// We make sure that no extra elements are found in the request
CISO8583Msg::TValidationError Error = ISOMsg.EnsureOnlyElementIDs(ElementIDs,sizeof(ElementIDs));
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
return;
}
// Check that we have PAN
Temp = ISOMsg.PAN();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::PANIsMissing);
return;
}
// Check that Processing Code exists and is valid.
Temp = ISOMsg.ProcessingCode();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::ProcessingCodeIsMissing);
return;
}
if(!(Temp == "000000" || Temp == "010000" || Temp == "090000"))
{
Msg.Reply(CISO8583Msg::InvalidProcessingCode);
return;
}
// Check the transaction amount for existance and that it does not exceede some Maximum
Temp = ISOMsg.TransactionAmount();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::TransactionAmountIsMissing);
return;
}
if(CISO8583Utilities::ToInt64(Temp) > 99999999)
{
Msg.Reply(CISO8583Msg::TransactionAmountAboveMaximum);
return;
}
// check Transaction Currency.
Temp = ISOMsg.TransactionCurrencyCode();
if(Temp == "")
{
Msg.Reply(CISO8583Msg::TransactionCurrencyIsMissing);
return;
}
if(Temp != "978") // Transaction amount is not in Euro
{
if(ISOMsg.CardholderBillingAmount() == "")
{
Msg.Reply(CISO8583Msg::CardholderBillingAmountIsMissing);
return;
}
if(ISOMsg.CardholderBillingCurrencyCode() != "978")
{
Msg.Reply(CISO8583Msg::CardholderBillingCurrencyIsNotEuro);
return;
}
if(ISOMsg.CardholderBillingConversionRate() == "")
{
Msg.Reply(CISO8583Msg::CardholderBillingConversionRateIsMissing);
return;
}
// Lets validate that the conversion to Euro is done correctly.
int64_t TRAmount = CISO8583Utilities::ToInt64(ISOMsg.TransactionAmount());
int64_t BLAmount = CISO8583Utilities::ToInt64(ISOMsg.CardholderBillingAmount());
int64_t CRate = CISO8583Utilities::ToInt64(ISOMsg.CardholderBillingConversionRate());
int64_t Divisor = CISO8583Utilities::PowerOf10((unsigned int)(CRate / 10000000));
TRAmount *= (CRate % 10000000);
TRAmount /= Divisor;
if(TRAmount != BLAmount)
{
Msg.Reply(CISO8583Msg::CardholderBillingAmountWrong);
return;
}
TRAmount *= CRate;
} else // we must make sure that IDs 6,10,51 are not there
{
if(!(ISOMsg.CardholderBillingAmount() == "" ||
ISOMsg.CardholderBillingCurrencyCode() == "" ||
ISOMsg.CardholderBillingConversionRate() == ""))
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
}
// Check that we got STAN
if(ISOMsg.STAN() == "")
{
Msg.Reply(CISO8583Msg::STANIsMissing);
return;
}
// Check that we got Local Date and Time
if(ISOMsg.DateTimeLocal() == "")
{
Msg.Reply(CISO8583Msg::DateTimeLocalIsMissing);
return;
}
// Check that we got Expiration Date when track 2 is missing
if(ISOMsg.ExpirationDate() == "" && ISOMsg.Track2Data() == "")
{
Msg.Reply(CISO8583Msg::ExpirationDateIsMissing);
return;
}
// Check that we got POS Data Code
if(ISOMsg.POSDataCode() == "")
{
Msg.Reply(CISO8583Msg::POSDataCodeIsMissing);
return;
}
CISO8583ElementValue ICCData = ISOMsg.ICCData();
if(ISOMsg.CardSequenceNumber() == "")
{
// lets make sure that it is not an ICC transaction and if it is, lets make sure we do not have tag 0x5f34
if(ISOMsg.POSDataCode()[6] == '5') // ICC Transaction
{
if(ICCData.Size() > 0 && CISO8583Utilities::TLVDataHasTag((const byte_t *)ICCData.RawData(),ICCData.Size(),0x5f34))
{
Msg.Reply(CISO8583Msg::CardSequenceNumberIsMissing);
return;
}
}
} else
{
// lets make sure that IT IS an ICC transaction and we have tag 0x5f34
if(!(ISOMsg.POSDataCode()[6] == '5' && ICCData.Size() > 0 && CISO8583Utilities::TLVDataHasTag((const byte_t *)ICCData.RawData(),ICCData.Size(),0x5f34)))
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
}
// Check that we got Function Code
if(ISOMsg.FunctionCode() == "")
{
Msg.Reply(CISO8583Msg::FunctionCodeIsMissing);
return;
}
// Check that we got Card Acceptor Business Code
if(ISOMsg.CardAcceptorBusinessCode() == "")
{
Msg.Reply(CISO8583Msg::CardAcceptorBusinessCodeIsMissing);
return;
}
// Check that we got Acquiring Institution Identification Code
if(ISOMsg.AcquiringInstitutionIdentificationCode() == "")
{
Msg.Reply(CISO8583Msg::AcquiringInstitutionIdentificationCodeIsMissing);
return;
}
// Check that we have Track2 if not E Commerce
if(ISOMsg.Track2Data() == "" && ISOMsg.POSDataCode()[7] != 'U')
{
Msg.Reply(CISO8583Msg::Track2DataIsMissing);
return;
}
// Check that we have Retrieval Reference Number
if(ISOMsg.RRN() == "")
{
Msg.Reply(CISO8583Msg::RRNIsMissing);
return;
}
// check that we have Card Acceptor Terminal Identification
if(ISOMsg.CardAcceptorTerminalIdentification().Size() == 0)
{
Msg.Reply(CISO8583Msg::TerminalIDIsMissing);
return;
}
// check that we have Card Acceptor Identification Code
if(ISOMsg.CardAcceptorIdentificationCode().Size() == 0)
{
Msg.Reply(CISO8583Msg::CardAcceptorIdentificationCodeIsMissing);
return;
}
// check that we have Card Acceptor Name/Location
if(ISOMsg.CardAcceptorNameLocation().Size() == 0)
{
Msg.Reply(CISO8583Msg::CardAcceptorNameLocationIsMissing);
return;
}
// check that we have PIN , if required
if((ISOMsg.POSDataCode()[6] == '2' && ISOMsg.POSDataCode()[7] != '5') || // magnetic stripe + PIN
(ISOMsg.POSDataCode()[6] == '5' && ISOMsg.POSDataCode()[7] == '1')) // chip + PIN
{
if(ISOMsg.PIN() == "")
{
Msg.Reply(CISO8583Msg::PINIsMissing);
return;
}
} else if(ISOMsg.PIN() != "")
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// check that we have Security Related Control Information, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.SecurityRelatedControlInformation() == "")
{
Msg.Reply(CISO8583Msg::SecurityRelatedControlInformationIsMissing);
return;
}
// check that we have Additional amounts when processing code is "090000"
if(ISOMsg.ProcessingCode() == "090000")
{
if(ISOMsg.AdditionalAmounts().Size() == 0)
{
Msg.Reply(CISO8583Msg::AdditionalAmountsIsMissing);
return;
}
} else if(ISOMsg.AdditionalAmounts().Size() != 0)
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// check that we have ICC Data for chip transactions
if(ISOMsg.POSDataCode()[6] == '5')
{
if(ICCData.Size() == 0)
{
Msg.Reply(CISO8583Msg::ICCDataIsMissing);
return;
}
} else if(ICCData.Size() != 0)
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// check that we have Additional Private Data when E-Commerce transaction
if(ISOMsg.POSDataCode()[7] == 'U')
{
if(ISOMsg.AdditionalPrivateData().Size() == 0)
{
Msg.Reply(CISO8583Msg::AdditionalPrivateDataIsMissing);
return;
}
} else if(ISOMsg.AdditionalPrivateData().Size() != 0)
{
Msg.Reply(CISO8583Msg::ExtraElementsFound);
return;
}
// check that we have MAC, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.MAC1() == "")
{
Msg.Reply(CISO8583Msg::MAC1IsMissing);
return;
}
/*
After we finished validating the request, we need to decide if we authorize locally or we forward it to
the issuer for authorization
*/
if(AuthorizeLocally(ISOMsg)) // in this example it is always true
{
// We create a new ISO Message
// we will decline this message
CISO8583Msg Rsp;
// We will Dup field from the original message and add/ change the ones that are relevant for the response
Rsp.SetMTI(ISOMsg.MTI() + 10); // this is a response
Rsp.SetPAN(ISOMsg.PAN());
Rsp.SetProcessingCode(ISOMsg.ProcessingCode());
Rsp.SetTransactionAmount(ISOMsg.TransactionAmount());
Rsp.SetCardholderBillingAmount(ISOMsg.CardholderBillingAmount());
Rsp.SetTimes(time(NULL),true); // This will set, transmission times
Rsp.SetDateTimeLocal(ISOMsg.DateTimeLocal());
Rsp.SetCardholderBillingConversionRate(ISOMsg.CardholderBillingConversionRate());
Rsp.SetSTAN(ISOMsg.STAN());
Rsp.SetOriginalAmounts(ISOMsg.TransactionAmount()+"000000000000"); // this is adecline response, we include the original amounts
Rsp.SetAcquiringInstitutionIdentificationCode(ISOMsg.AcquiringInstitutionIdentificationCode());
Rsp.SetRRN(ISOMsg.RRN());
Rsp.SetActionCode(std::string("909")); // System Mulfunction
Rsp.SetCardAcceptorTerminalIdentification(ISOMsg.CardAcceptorTerminalIdentification());
Rsp.SetCardAcceptorIdentificationCode(ISOMsg.CardAcceptorIdentificationCode());
Rsp.SetTransactionCurrencyCode(ISOMsg.TransactionCurrencyCode());
Rsp.SetCardholderBillingCurrencyCode(ISOMsg.CardholderBillingCurrencyCode());
Rsp.SetSecurityRelatedControlInformation(std::string("00000007000001FFFF")); // this is a dummy value, real value should be set based on Keys.
Rsp.SetICCData(ISOMsg.ICCData()); // not mandatory
Rsp.SetAuthorizingAgentInstitutionIdentificationCode(CISO8583ElementValue("12345678901",CISO8583ElementValue::ISO8583ElementTypeNumeric)); // dummy value
Rsp.SetMAC1(std::string("0123456789ABCDEF")); // dummy value, should be based on keys
CISO8583Msg::TValidationError Error = Rsp.ToISO();
if(Error != CISO8583Msg::NoError)
Throw();
/*
we are done preparing the response, we reply with an MTI = CISO8583Msg::MTIAuthorizationMessageResponse
and the handling is complete.
*/
Msg.Reply(Rsp.MTI(),Rsp.ISOBuffer(),Rsp.ISOBufferSize());
} else
{
/*
we get here if we need someone else to authorize the request. In that case we need to forward the request to our Acquirer Gateway Front End.
To do that we need to forward it with a different message code, so MultiXTpm will not forward it back to us. The way we do the message code change
is by setting the MTI version field to CISO8583Msg::ISO8583_Private. When the message is received by our Gateway process, it will revert back
to CISO8583Msg::ISO8583_2_1993 and forward it on.
When we forward a request, we do not block for a response, when a response arrives, we get it thru
the event "OnDataReplyReceived". in order to be able to associate the response with the original msg,
we pass a pointer to the original message in the "Context" parameter of the "Send" function, and when
"OnDataReplyReceived" is called, we retrieve this pointer by using "SavedContext()" in the Original msg we sent.
Since MultiX automatically destroys messages it forwards to the application, we must call "Keep()" on
the received message, to prevent it from being destroyed, in that case, when the reply is received, we need
to destroy the original message ourselves.
When we play the role of an acquirer gateway, usualy we get the request from the POS terminal, do validation required
and maybe modify some data, and then forward the message to the issuer gateway, in our case, the forward will be to a process
in our system, that will decide to which issuer to forward to, based on that, will use a specific connection to the spcific
issuer gateway.
*/
/*
Before we forward the request, we need to set 3 fields to identify the message as a one sent from this process :
BMP 11 - STAN,
BMP 12 - Times,
BMP 32 - Our Acquirer ID
When we receive the response from the remote gateway/issuer, we must replace these fields again to the orignal values
that the sender set before sending the request to us
*/
ISOMsg.SetTimes(time(NULL));
ISOMsg.SetSTAN(Owner()->GetNextSTAN());
ISOMsg.SetAcquiringInstitutionIdentificationCode(Owner()->MyAcquirerID());
ISOMsg.ToISO();
if(Send(CISO8583Msg::VersionDependentMTI(CISO8583Msg::ISO8583_Private,Msg.MsgCode()),ISOMsg.ISOBuffer(),ISOMsg.ISOBufferSize(),CMultiXAppMsg::FlagNotifyAll,0,0,&Msg))
Msg.Keep();
else
Msg.Reply(ErrUnableToForwardMsg);
}
}
void CISO8583BackEndServerSession::OnNetworkManagementRequest(CMultiXAppMsg &Msg,CISO8583Msg &ISOMsg)
{
std::string Temp;
byte_t ElementIDs[] = {1,11,12,24,25,53,93,94,128};
// We make sure that no extra elements are found in the request
CISO8583Msg::TValidationError Error = ISOMsg.EnsureOnlyElementIDs(ElementIDs,sizeof(ElementIDs));
if(Error != CISO8583Msg::NoError)
{
Msg.Reply(Error);
return;
}
// Check that we got STAN
if(ISOMsg.STAN() == "")
{
Msg.Reply(CISO8583Msg::STANIsMissing);
return;
}
// Check that we got Local Date and Time
if(ISOMsg.DateTimeLocal() == "")
{
Msg.Reply(CISO8583Msg::DateTimeLocalIsMissing);
return;
}
// Check that we got Function Code
if(ISOMsg.FunctionCode() == "")
{
Msg.Reply(CISO8583Msg::FunctionCodeIsMissing);
return;
}
// Check that Function Code has a valid value
if(!(ISOMsg.FunctionCode() == "801" || ISOMsg.FunctionCode() == "802" || ISOMsg.FunctionCode() == "831"))
{
Msg.Reply(CISO8583Msg::FunctionCodeIsInvalid);
return;
}
// Check that we have Message Reason Code for sign-off and echo-test
if(ISOMsg.MessageReasonCode() == "" && ISOMsg.FunctionCode() != "801")
{
Msg.Reply(CISO8583Msg::MessageReasonCodeIsMissing);
return;
}
// check that we have Security Related Control Information, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.SecurityRelatedControlInformation() == "")
{
Msg.Reply(CISO8583Msg::SecurityRelatedControlInformationIsMissing);
return;
}
// Check that we have Transaction Destination Institution Identification Code
if(ISOMsg.TransactionDestinationInstitutionIdentificationCode() == "")
{
Msg.Reply(CISO8583Msg::TransactionDestinationInstitutionIdentificationCodeIsMissing);
return;
}
// Check that we have Transaction Originator Institution Identification Code
if(ISOMsg.TransactionOriginatorInstitutionIdentificationCode() == "")
{
Msg.Reply(CISO8583Msg::TransactionOriginatorInstitutionIdentificationCodeIsMissing);
return;
}
// check that we have MAC2, we do not check the values because we do not have the Keys
// in this implementation.
if(ISOMsg.MAC2() == "")
{
Msg.Reply(CISO8583Msg::MAC2IsMissing);
return;
}
/*
We get here after we validated that all required fields exist in the request.
Now we will process the request based on the specific Function Code.
First We Build the response Message
*/
// We create a new ISO Message
CISO8583Msg Rsp;
// We will Dup field from the original message and add/ change the ones that are relevant for the response
Rsp.SetMTI(ISOMsg.MTI() + 10); // this is a response
Rsp.SetTimes(time(NULL),true); // This will set transmission times
Rsp.SetDateTimeLocal(ISOMsg.DateTimeLocal());
Rsp.SetSTAN(ISOMsg.STAN());
Rsp.SetActionCode(std::string("800")); // Accepted
Rsp.SetSecurityRelatedControlInformation(std::string("00000007000001FFFF")); // this is a dummy value, real value should be set based on Keys.
Rsp.SetTransactionDestinationInstitutionIdentificationCode(ISOMsg.TransactionDestinationInstitutionIdentificationCode());
Rsp.SetTransactionOriginatorInstitutionIdentificationCode(ISOMsg.TransactionOriginatorInstitutionIdentificationCode());
Rsp.SetMAC2(std::string("0123456789ABCDEF")); // dummy value, should be based on keys
if(ISOMsg.FunctionCode() == "801") // this is a Sign On request
{
/*
At this point we would go to the DB and verify that the Sender (Transaction Destination Institution Identification Code) is
a valid one. In our example we assume it is OK so we accept the request.
Since the request arrived in the context of a specific MultiX Session, we can assume that all future requests from the specific
Remote gateway will arrive to this session. So we will keep the remote gateway ID in a local member variable and specify
that it is signed on, when we receive other requests on that session, we can check the remote gateway and it status.
for example, an Authorization request from a gateway that not sign-On will allways be rejected.
*/
m_bRemoteGateway = true;
m_bSignedON = true;
m_RemoteGatewayID = ISOMsg.TransactionDestinationInstitutionIdentificationCode();
} else if(ISOMsg.FunctionCode() == "802") // this is a Sign Off request
{
/*
we check that the session is with a remote gateway and that it is signed on, if so, we sign it off and clear the ID.
When the actual connection with the remote gateway is terminated, the Gateway process in our system will destroy the session
and the session object in this process will be deleted also.
*/
if(!(m_bRemoteGateway && m_bSignedON && m_RemoteGatewayID == ISOMsg.TransactionDestinationInstitutionIdentificationCode())) // invalid request
{
Msg.Reply(CISO8583Msg::InvalidRequest);
return;
}
m_bRemoteGateway = false;
m_bSignedON = false;
m_RemoteGatewayID = "";
} else if(ISOMsg.FunctionCode() == "831") // this is a Echo-test
{
/*
we check that the session is with a remote gateway and that it is signed on.
*/
if(!(m_bRemoteGateway && m_bSignedON && m_RemoteGatewayID == ISOMsg.TransactionDestinationInstitutionIdentificationCode())) // invalid request
{
Msg.Reply(CISO8583Msg::InvalidRequest);
return;
}
} else
{
Msg.Reply(CISO8583Msg::InvalidRequest);
return;
}
Error = Rsp.ToISO();
if(Error != CISO8583Msg::NoError)
Throw();
Msg.Reply(Rsp.MTI(),Rsp.ISOBuffer(),Rsp.ISOBufferSize());
}
