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 DataPoll::ReadData(const APDU& f) { ResponseLoader loader(mpLogger, mpObs, mpVtoReader); HeaderReadIterator hdr = f.BeginRead(); for ( ; !hdr.IsEnd(); ++hdr) { loader.Process(hdr); } }
void Master::ProcessDataResponse(const APDU& arResponse) { try { ResponseLoader loader(this->mpLogger, this->mpPublisher, this->GetVtoReader()); for(HeaderReadIterator hdr = arResponse.BeginRead(); !hdr.IsEnd(); ++hdr) loader.Process(hdr); } catch(Exception ex) { EXCEPTION_BLOCK(LEV_WARNING, ex) } }
void Slave::HandleVtoTransfer(const APDU& arRequest) { for(HeaderReadIterator hdr = arRequest.BeginRead(); !hdr.IsEnd(); ++hdr) { switch(hdr->GetGroup()) { case 112: this->HandleWriteVto(hdr); break; default: mRspIIN.SetFuncNotSupported(true); ERROR_BLOCK(LEV_WARNING, "Object/Function mismatch", SERR_OBJ_FUNC_MISMATCH); break; } } }
void ResponseLoaderTestObject::Load(const std::string& arAPDU) { fdo.Clear(); HexSequence hs(arAPDU); APDU f; f.Write(hs, hs.Size()); f.Interpret(); ResponseLoader rl(mpLogger, &fdo); for(HeaderReadIterator hdr = f.BeginRead(); !hdr.IsEnd(); ++hdr) { rl.Process(hdr); } }
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; } } }