void Slave::HandleEnableUnsolicited(const APDU& arRequest, bool aIsEnable)
{
mResponse.Set(FC_RESPONSE);
if (mConfig.mDisableUnsol) {
mRspIIN.SetFuncNotSupported(true);
}
else {
if (aIsEnable) {
this->mDeferredUnsol = true;
}
for (HeaderReadIterator hdr = arRequest.BeginRead(); !hdr.IsEnd(); ++hdr) {
switch (MACRO_DNP_RADIX(hdr->GetGroup(), hdr->GetVariation())) {
case (MACRO_DNP_RADIX(60, 2)):
mConfig.mUnsolMask.class1 = aIsEnable;
break;
case (MACRO_DNP_RADIX(60, 3)):
mConfig.mUnsolMask.class2 = aIsEnable;
break;
case (MACRO_DNP_RADIX(60, 4)):
mConfig.mUnsolMask.class3 = aIsEnable;
break;
default:
mRspIIN.SetFuncNotSupported(true);
LOG_BLOCK(LEV_WARNING, "Cannot enable/disable unsol for " << hdr->GetBaseObject()->Name());
break;
}
}
}
}
void ResponseLoader::Process(HeaderReadIterator& arIter)
{
int grp = arIter->GetGroup();
int var = arIter->GetVariation();
this->ProcessData(arIter, grp, var);
mCTO.NextHeader();
}
void Slave::HandleWriteVto(HeaderReadIterator& arHdr)
{
Transaction tr(mVtoReader);
for (ObjectReadIterator obj = arHdr.BeginRead(); !obj.IsEnd(); ++obj) {
size_t index = obj->Index();
if(index > std::numeric_limits<boost::uint8_t>::max()) {
LOG_BLOCK(LEV_WARNING, "Ignoring VTO index that exceeds bit width of uint8_t: " << index);
}
else {
/*
* Pass the data to the vto reader
*/
boost::uint8_t channel = static_cast<boost::uint8_t>(index);
VtoData vto(arHdr->GetVariation());
Group112Var0::Inst()->Read(*obj, arHdr->GetVariation(), vto.mpData);
mVtoReader.Update(vto, channel);
}
}
}
void ResponseLoader::ReadVto(HeaderReadIterator& arIter, SizeByVariationObject* apObj)
{
/* Get an iterator to the object data */
ObjectReadIterator objIter = arIter.BeginRead();
/* Copy the object data to a VtoData instance */
VtoData data;
data.Copy(*objIter, arIter->GetVariation());
/* Determine the Virtual Terminal port/channel number */
size_t index = objIter->Index();
if(index > std::numeric_limits<boost::uint8_t>::max()) {
LOG_BLOCK(LEV_WARNING, "Ignoring VTO index that exceeds bit width of uint8_t: " << index);
}
else {
boost::uint8_t channel = static_cast<boost::uint8_t>(index);
Transaction t(mpVtoReader);
this->mpVtoReader->Update(data, channel);
}
}
void Slave::HandleOperate(const APDU& arRequest, SequenceInfo aSeqInfo)
{
if (aSeqInfo == SI_PREV && mLastRequest == arRequest) {
return;
}
mResponse.Set(FC_RESPONSE);
for (HeaderReadIterator hdr = arRequest.BeginRead(); !hdr.IsEnd(); ++hdr) {
ObjectReadIterator i = hdr.BeginRead();
switch (MACRO_DNP_RADIX(hdr->GetGroup(), hdr->GetVariation())) {
case (MACRO_DNP_RADIX(12, 1)):
this->RespondToCommands<BinaryOutput>(Group12Var1::Inst(), i, boost::bind(&Slave::Operate<BinaryOutput>, this, _1, _2, false, hdr.info(), aSeqInfo, arRequest.GetControl().SEQ));
break;
case (MACRO_DNP_RADIX(41, 1)):
this->RespondToCommands<Setpoint>(Group41Var1::Inst(), i, boost::bind(&Slave::Operate<Setpoint>, this, _1, _2, false, hdr.info(), aSeqInfo, arRequest.GetControl().SEQ));
break;
case (MACRO_DNP_RADIX(41, 2)):
this->RespondToCommands<Setpoint>(Group41Var2::Inst(), i, boost::bind(&Slave::Operate<Setpoint>, this, _1, _2, false, hdr.info(), aSeqInfo, arRequest.GetControl().SEQ));
break;
case (MACRO_DNP_RADIX(41, 3)):
this->RespondToCommands<Setpoint>(Group41Var3::Inst(), i, boost::bind(&Slave::Operate<Setpoint>, this, _1, _2, false, hdr.info(), aSeqInfo, arRequest.GetControl().SEQ));
break;
case (MACRO_DNP_RADIX(41, 4)):
this->RespondToCommands<Setpoint>(Group41Var4::Inst(), i, boost::bind(&Slave::Operate<Setpoint>, this, _1, _2, false, hdr.info(), aSeqInfo, arRequest.GetControl().SEQ));
break;
default:
mRspIIN.SetFuncNotSupported(true);
ERROR_BLOCK(LEV_WARNING, "Object/Function mismatch", SERR_OBJ_FUNC_MISMATCH);
break;
}
}
}
void Slave::HandleWrite(const APDU& arRequest)
{
for (HeaderReadIterator hdr = arRequest.BeginRead(); !hdr.IsEnd(); ++hdr) {
switch (hdr->GetGroup()) {
case 112:
this->HandleWriteVto(hdr);
continue;
}
switch (MACRO_DNP_RADIX(hdr->GetGroup(), hdr->GetVariation())) {
case (MACRO_DNP_RADIX(80, 1)):
this->HandleWriteIIN(hdr);
break;
case (MACRO_DNP_RADIX(50, 1)):
this->HandleWriteTimeDate(hdr);
break;
default:
mRspIIN.SetFuncNotSupported(true);
ERROR_BLOCK(LEV_WARNING, "Object/Function mismatch", SERR_OBJ_FUNC_MISMATCH);
break;
}
}
}