//OpenSCADA module DAQ.FT3 file: BIP.cpp /*************************************************************************** * Copyright (C) 2011-2016 by Maxim Kochetkov * * fido_max@inbox.ru * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; version 2 of the License. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ #include #include #include "mod_FT3.h" #include "BIP.h" using namespace FT3; B_BIP::B_BIP(TMdPrm& prm, uint16_t id, uint16_t n, bool has_params) : DA(prm), ID(id), count_n(n), with_params(has_params) { mTypeFT3 = GRS; blkID = 0x30; TFld * fld; mPrm.p_el.fldAdd(fld = new TFld("state", _("State"), TFld::Integer, TFld::NoWrite)); fld->setReserve("0:0"); for(int i = 0; i < count_n; i++) { AddChannel(i); } loadIO(true); } B_BIP::~B_BIP() { } void B_BIP::AddChannel(uint8_t iid) { data.push_back(SPchannel(iid, this)); AddAttr(data.back().State.lnk, TFld::Integer, TFld::NoWrite, TSYS::strMess("%d:0", iid + 1)); AddAttr(data.back().Value.lnk, TFld::Real, TFld::NoWrite, TSYS::strMess("%d:1", iid + 1)); if(with_params) { AddAttr(data.back().Period.lnk, TFld::Integer, TVal::DirWrite, TSYS::strMess("%d:2", iid + 1)); AddAttr(data.back().Sens.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:3", iid + 1)); AddAttr(data.back().MinW.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:4", iid + 1)); AddAttr(data.back().MaxW.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:4", iid + 1)); AddAttr(data.back().MinA.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:5", iid + 1)); AddAttr(data.back().MaxA.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:5", iid + 1)); AddAttr(data.back().Dimension.lnk, TFld::Integer, TVal::DirWrite, TSYS::strMess("%d:6", iid + 1)); AddAttr(data.back().MinPV.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:7", iid + 1)); AddAttr(data.back().MaxPV.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:7", iid + 1)); AddAttr(data.back().MinFreq.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:8", iid + 1)); AddAttr(data.back().MaxFreq.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:8", iid + 1)); AddAttr(data.back().Factor.lnk, TFld::Real, TVal::DirWrite, TSYS::strMess("%d:9", iid + 1)); } } string B_BIP::getStatus(void) { string rez; if(NeedInit) { rez = "20: Опрос"; } else { rez = "0: Норма"; } return rez; } void B_BIP::loadIO(bool force) { if(mPrm.owner().startStat() && !force) { mPrm.modif(true); return; } //Load/reload IO context only allow for stopped controllers for prevent throws for(int i = 0; i < count_n; i++) { loadLnk(data[i].State.lnk); loadLnk(data[i].Value.lnk); loadLnk(data[i].Period.lnk); loadLnk(data[i].Sens.lnk); loadLnk(data[i].MinW.lnk); loadLnk(data[i].MaxW.lnk); loadLnk(data[i].MinA.lnk); loadLnk(data[i].MaxA.lnk); loadLnk(data[i].Dimension.lnk); loadLnk(data[i].MinPV.lnk); loadLnk(data[i].MaxPV.lnk); loadLnk(data[i].MinFreq.lnk); loadLnk(data[i].MaxFreq.lnk); loadLnk(data[i].Factor.lnk); } } void B_BIP::saveIO() { for(int i = 0; i < count_n; i++) { saveLnk(data[i].State.lnk); saveLnk(data[i].Value.lnk); saveLnk(data[i].Period.lnk); saveLnk(data[i].Sens.lnk); saveLnk(data[i].MinW.lnk); saveLnk(data[i].MaxW.lnk); saveLnk(data[i].MinA.lnk); saveLnk(data[i].MaxA.lnk); saveLnk(data[i].Dimension.lnk); saveLnk(data[i].MinPV.lnk); saveLnk(data[i].MaxPV.lnk); saveLnk(data[i].MinFreq.lnk); saveLnk(data[i].MaxFreq.lnk); saveLnk(data[i].Factor.lnk); } } void B_BIP::tmHandler(void) { for(int i = 0; i < count_n; i++) { if(with_params) { UpdateParam8(data[i].Period, PackID(ID, (i + 1), 2), 1); UpdateParamFl(data[i].Sens, PackID(ID, (i + 1), 3), 1); UpdateParam2Fl(data[i].MinW, data[i].MaxW, PackID(ID, (i + 1), 4), 1); UpdateParam2Fl(data[i].MinA, data[i].MaxA, PackID(ID, (i + 1), 5), 1); UpdateParam8(data[i].Dimension, PackID(ID, (i + 1), 6), 1); UpdateParam2Fl(data[i].MinPV, data[i].MaxPV, PackID(ID, (i + 1), 7), 1); UpdateParam2Fl(data[i].MinFreq, data[i].MaxFreq, PackID(ID, (i + 1), 8), 1); UpdateParamFl(data[i].Factor, PackID(ID, (i + 1), 9), 1); } UpdateParamFlState(data[i].Value, data[i].State, data[i].Sens, PackID(ID, (i + 1), 1), 2); } NeedInit = false; } uint16_t B_BIP::Task(uint16_t uc) { tagMsg Msg; uint16_t rc = 0; switch(uc) { case TaskRefresh: Msg.L = 5; Msg.C = AddrReq; *((uint16_t *) Msg.D) = PackID(ID, 0, 0); //state if(mPrm.owner().DoCmd(&Msg)) { if(Msg.C == GOOD3) { if(with_params) { for(int i = 1; i <= count_n; i++) { Msg.L = 21; Msg.C = AddrReq; *((uint16_t *) Msg.D) = PackID(ID, i, 1); *((uint16_t *) (Msg.D + 2)) = PackID(ID, i, 2); *((uint16_t *) (Msg.D + 4)) = PackID(ID, i, 3); *((uint16_t *) (Msg.D + 6)) = PackID(ID, i, 4); *((uint16_t *) (Msg.D + 8)) = PackID(ID, i, 5); *((uint16_t *) (Msg.D + 10)) = PackID(ID, i, 6); *((uint16_t *) (Msg.D + 12)) = PackID(ID, i, 7); *((uint16_t *) (Msg.D + 14)) = PackID(ID, i, 8); *((uint16_t *) (Msg.D + 16)) = PackID(ID, i, 9); if(mPrm.owner().DoCmd(&Msg)) { if(Msg.C == GOOD3) { rc = 1; } else { rc = 0; break; } } else { rc = 0; break; } } } else { rc = 1; } } } if(rc) NeedInit = false; break; } return rc; } uint16_t B_BIP::HandleEvent(int64_t tm, uint8_t * D) { FT3ID ft3ID = UnpackID(TSYS::getUnalign16(D)); if(ft3ID.g != ID) return 0; uint16_t l = 0; switch(ft3ID.k) { case 0: switch(ft3ID.n) { case 0: mPrm.vlAt("state").at().setI(D[2], tm, true); l = 3; break; case 1: mPrm.vlAt("state").at().setI(D[2], tm, true); l = 3 + count_n * 5; for(int j = 1; j <= count_n; j++) { mPrm.vlAt(TSYS::strMess("state_%d", j)).at().setI(D[(j - 1) * 5 + 3], tm, true); mPrm.vlAt(TSYS::strMess("value_%d", j)).at().setR(TSYS::getUnalignFloat(D + (j - 1) * 5 + 4), tm, true); } break; } break; default: if(ft3ID.k && (ft3ID.k <= count_n)) { switch(ft3ID.n) { case 0: mPrm.vlAt(TSYS::strMess("state_%d", ft3ID.k)).at().setI(D[2], tm, true); l = 3; break; case 1: mPrm.vlAt(TSYS::strMess("state_%d", ft3ID.k)).at().setI(D[2], tm, true); mPrm.vlAt(TSYS::strMess("value_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); l = 7; break; case 2: mPrm.vlAt(TSYS::strMess("period_%d", ft3ID.k)).at().setI(D[3], tm, true); l = 4; break; case 3: mPrm.vlAt(TSYS::strMess("sens_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); l = 7; break; case 4: mPrm.vlAt(TSYS::strMess("minW_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); mPrm.vlAt(TSYS::strMess("maxW_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 7), tm, true); l = 11; break; case 5: mPrm.vlAt(TSYS::strMess("minA_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); mPrm.vlAt(TSYS::strMess("maxA_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 7), tm, true); l = 11; break; case 6: mPrm.vlAt(TSYS::strMess("dimens_%d", ft3ID.k)).at().setI(D[3], tm, true); l = 4; break; case 7: mPrm.vlAt(TSYS::strMess("minPV_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); mPrm.vlAt(TSYS::strMess("maxPV_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 7), tm, true); l = 11; break; case 8: mPrm.vlAt(TSYS::strMess("minFreq_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); mPrm.vlAt(TSYS::strMess("maxFreq_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 7), tm, true); l = 11; break; case 9: mPrm.vlAt(TSYS::strMess("factor_%d", ft3ID.k)).at().setR(TSYS::getUnalignFloat(D + 3), tm, true); l = 7; break; } } break; } return l; } uint8_t B_BIP::cmdGet(uint16_t prmID, uint8_t * out) { FT3ID ft3ID = UnpackID(prmID); if(ft3ID.g != ID) return 0; uint l = 0; if(ft3ID.k == 0) { switch(ft3ID.n) { case 0: //state out[0] = 0 | blkID; l = 1; break; case 1: out[0] = 0 | blkID; l = 1; //value for(uint8_t i = 0; i < count_n; i++) { out[i * 5 + 1] = data[i].State.vl; for(uint8_t j = 0; j < 4; j++) out[i * 5 + 2 + j] = data[i].Value.b_vl[j]; l += 5; } break; } } else { if(ft3ID.k <= count_n) { switch(ft3ID.n) { case 0: out[0] = data[ft3ID.k - 1].State.vl; l = 1; break; case 1: out[0] = data[ft3ID.k - 1].State.vl; for(uint8_t j = 0; j < 4; j++) out[1 + j] = data[ft3ID.k - 1].Value.b_vl[j]; l = 5; break; case 2: out[0] = data[ft3ID.k - 1].Period.s; out[1] = data[ft3ID.k - 1].Period.vl; l = 2; break; case 3: out[0] = data[ft3ID.k - 1].Sens.s; for(uint8_t j = 0; j < 4; j++) out[1 + j] = data[ft3ID.k - 1].Sens.b_vl[j]; l = 5; break; case 4: out[0] = data[ft3ID.k - 1].MinW.s; for(uint8_t j = 0; j < 4; j++) { out[1 + j] = data[ft3ID.k - 1].MinW.b_vl[j]; out[5 + j] = data[ft3ID.k - 1].MaxW.b_vl[j]; } l = 9; break; case 5: out[0] = data[ft3ID.k - 1].MinA.s; for(uint8_t j = 0; j < 4; j++) { out[1 + j] = data[ft3ID.k - 1].MinA.b_vl[j]; out[5 + j] = data[ft3ID.k - 1].MaxA.b_vl[j]; } l = 9; break; case 6: out[0] = data[ft3ID.k - 1].Dimension.s; out[1] = data[ft3ID.k - 1].Dimension.vl; l = 2; break; case 7: out[0] = data[ft3ID.k - 1].MinPV.s; for(uint8_t j = 0; j < 4; j++) { out[1 + j] = data[ft3ID.k - 1].MinPV.b_vl[j]; out[5 + j] = data[ft3ID.k - 1].MaxPV.b_vl[j]; } l = 9; break; case 8: out[0] = data[ft3ID.k - 1].MinFreq.s; for(uint8_t j = 0; j < 4; j++) { out[1 + j] = data[ft3ID.k - 1].MinFreq.b_vl[j]; out[5 + j] = data[ft3ID.k - 1].MaxFreq.b_vl[j]; } l = 9; break; case 9: out[0] = data[ft3ID.k - 1].Factor.s; for(uint8_t j = 0; j < 4; j++) { out[1 + j] = data[ft3ID.k - 1].Factor.b_vl[j]; } l = 5; break; } } } return l; } uint8_t B_BIP::cmdSet(uint8_t * req, uint8_t addr) { uint16_t prmID = TSYS::getUnalign16(req); FT3ID ft3ID = UnpackID(prmID); if(ft3ID.g != ID) return 0; uint l = 0; if((ft3ID.k > 0) && (ft3ID.k <= count_n)) { switch(ft3ID.n) { case 2: l = SetNew8Val(data[ft3ID.k - 1].Period, addr, prmID, req[2]); break; case 3: l = SetNewflVal(data[ft3ID.k - 1].Sens, addr, prmID, TSYS::getUnalignFloat(req + 2)); break; case 4: l = SetNew2flVal(data[ft3ID.k - 1].MinW, data[ft3ID.k - 1].MaxW, addr, prmID, TSYS::getUnalignFloat(req + 2), TSYS::getUnalignFloat(req + 6)); break; case 5: l = SetNew2flVal(data[ft3ID.k - 1].MinA, data[ft3ID.k - 1].MaxA, addr, prmID, TSYS::getUnalignFloat(req + 2), TSYS::getUnalignFloat(req + 6)); break; case 6: l = SetNew8Val(data[ft3ID.k - 1].Dimension, addr, prmID, req[2]); break; case 7: l = SetNew2flVal(data[ft3ID.k - 1].MinPV, data[ft3ID.k - 1].MaxPV, addr, prmID, TSYS::getUnalignFloat(req + 2), TSYS::getUnalignFloat(req + 6)); break; case 8: l = SetNew2flVal(data[ft3ID.k - 1].MinFreq, data[ft3ID.k - 1].MaxFreq, addr, prmID, TSYS::getUnalignFloat(req + 2), TSYS::getUnalignFloat(req + 6)); break; case 9: l = SetNewflVal(data[ft3ID.k - 1].Factor, addr, prmID, TSYS::getUnalignFloat(req + 2)); break; } } return l; } uint16_t B_BIP::setVal(TVal &val) { int off = 0; FT3ID ft3ID; ft3ID.k = s2i(TSYS::strParse(val.fld().reserve(), 0, ":", &off)); ft3ID.n = s2i(TSYS::strParse(val.fld().reserve(), 0, ":", &off)); ft3ID.g = ID; tagMsg Msg; Msg.L = 0; Msg.C = SetData; Msg.L += SerializeUi16(Msg.D + Msg.L, PackID(ft3ID)); switch(ft3ID.n) { case 2: Msg.L += SerializeB(Msg.D + Msg.L, val.getI(0, true)); break; case 3: case 9: Msg.L += SerializeF(Msg.D + Msg.L, val.getR(0, true)); break; case 4: Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("minW_%d", ft3ID.k)).at().getR(0, true)); Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("maxW_%d", ft3ID.k)).at().getR(0, true)); break; case 5: Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("minA_%d", ft3ID.k)).at().getR(0, true)); Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("maxA_%d", ft3ID.k)).at().getR(0, true)); break; case 7: Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("minPV_%d", ft3ID.k)).at().getR(0, true)); Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("maxPV_%d", ft3ID.k)).at().getR(0, true)); break; case 8: Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("minFreq_%d", ft3ID.k)).at().getR(0, true)); Msg.L += SerializeF(Msg.D + Msg.L, mPrm.vlAt(TSYS::strMess("maxFreq_%d", ft3ID.k)).at().getR(0, true)); break; } if(Msg.L > 2) { Msg.L += 3; mPrm.owner().DoCmd(&Msg); } return 0; } //---------------------------------------------------------------------------