#ifndef SHARED_MEM_BUFFER_INCLUDED_H #define SHARED_MEM_BUFFER_INCLUDED_H #include #include #include #include bool shdMem_firstUse(void); // Vorsicht: im shared memory ist kein QString erlaubt!!!!!!!!!!!!!!!!!!!!!! // nur standard C Typen!!!!!! // also auch kein QByteArray o.รค. // Vorsicht: Zugriffe auf Comport NICHT ins shared mem --> Absturz!!!! struct SharedMem { // ------------------ Comport Control -------------------------------- bool rs_portIsOpen; bool AutoEmissionOn; bool Sdata_serialTestResult; uint8_t Sdata_pProtResultOk; uint16_t Sdata_receivedDataLength; uint8_t Sdata_receivedDataBlock[64]; uint8_t ndbs, pari, nsb, br; uint8_t Sdata_lastResult; uint8_t Sdata_OverallResult; bool Sdata_startSV; // ------------------ Data INPUT -------------------------------- bool indat_savePrnPwr; bool indat_saveMifPwr; bool indat_MdbIsOn; //QString indat_HWversion; //QString indat_SWversion; //QString indat_DCstate; #define versionBufferLen 32 char indat_HWversion[versionBufferLen]; char indat_SWversion[versionBufferLen]; char indat_DCstate[versionBufferLen]; struct Sdata { uint64_t slaveUID; uint8_t UIDstr[8]; } Sdata; struct T_globTime { // Reihenfolge nicht vertauschen!!!!! uint8_t hour; uint8_t minute; uint8_t second; uint8_t Year; uint8_t Month; uint8_t DayOfMonth; uint8_t DayOfWeek; // 1=monday...7 uint8_t reserve1; uint16_t MinutesOfToday; uint16_t reserve2; uint32_t SecondsOfToday; uint8_t IsLeapyear; uint8_t nextLeap; uint8_t lastLeap; uint8_t hoursOfWeek; uint16_t minOfWeek; uint16_t hoursOfMonth; uint16_t minOfMonth; uint16_t dayOfYear; uint16_t hoursOfYear; uint16_t reserve3; uint32_t minOfYear; uint8_t squareOutMode; uint8_t free1; uint16_t reserve4; uint32_t minOfMillenium; // bis hierher 44byts uint32_t free2; uint32_t free3; uint32_t free4; } getGlobalTime; #define MAXNROF_AI 4 uint16_t AI_val[MAXNROF_AI]; #define MAXNROF_MEASURE 4 uint32_t Sdata_measurement[MAXNROF_MEASURE]; uint8_t di_doorSwitch; uint8_t di_vaultSwitch; uint8_t di_lockSwitch; uint8_t di_opto; uint8_t di_aux; bool di_wakeFromPtu; bool di_wakeFromMdb; bool di_PrnReady; bool di_CoinAttach; bool di_CoinEscrowOpen; bool di_mifCardTap; bool di_wakeFromModem; bool di_contactPwrOn; bool di_mifarePwrOn; bool di_rdbk_mdbTxd; bool di_AuxPwrOn; bool di_gsmPwrOn; bool di_creditPwrOn; bool di_printerPwrOn; bool di_mdbPwrOn; bool di_rejMot_home; uint8_t di_npe_sensor; uint8_t do_mbdRxTst; uint8_t do_motorBits; uint8_t do_serialSwitch; uint8_t do_ledsAndFan; uint8_t do_laermUndRelay; uint8_t do_ptuWake; uint8_t do_auxPower; uint8_t do_coinShutter; uint8_t do_coinEscrow; uint8_t do_printerPower; //#define NROFMIFSTATEBYTES 40 //uint8_t Sdata_MIF_STATE[NROFMIFSTATEBYTES]; uint8_t Sdata_MIF_DATA[64]; //uint8_t mif_cardType; //uint8_t mif_cardHolder[8]; uint8_t Sdata_MIF_ATB[64]; #define pi_prnStateArraySize 20 uint8_t Sdata_PRN_STATE[pi_prnStateArraySize]; #define pi_prnFontArraySize 20 uint8_t Sdata_PRN_FONTS[pi_prnFontArraySize]; bool Sdata_mdb_busRdy; bool Sdata_mdb_V12on; bool Sdata_mdb_V5on; uint8_t Sdata_mdbNrOfRecData; uint8_t Sdata_RecBuff[40]; uint8_t Sdata_empNrOfsettings; uint8_t Sdata_emp_settingsBuff[66]; struct T_coin { uint8_t valid; uint8_t signal; uint8_t error; uint8_t pad; uint16_t value; }; #define MEMDEPTH_GOTCOINS 16 struct T_coin gotCoin[MEMDEPTH_GOTCOINS]; uint8_t ctr_gotCoin; uint8_t Sdata_NrOfDeviceSetting; uint8_t Sdata_DeviceSettingBuff[66]; uint8_t SizeMachineIDBuff; uint8_t MachineIDBuff[66]; uint32_t store_insertedAmount; uint16_t store_lastCoinType[64]; uint16_t store_lastCoinValue[64]; uint8_t p_lastCoin; char store_curPayNewCoin; uint64_t stor_wakSrc; uint8_t stor_reason; uint8_t store_rbDevParamLen; uint8_t store_rbDevParams[66]; uint8_t store_deviceCondLen; uint8_t store_deviceCond[66]; uint8_t store_machCondLen; uint8_t store_machCond[66]; uint8_t store_DcBackupNrOfAccNr; uint16_t store_DcBackupAccNr[16]; // z.Z. nur 8 #define PI_SIZOFVAULTRECORD 400 uint8_t store_gotNrBlocksOfVaultRec; uint8_t store_vaultrecord[PI_SIZOFVAULTRECORD]; uint32_t store_amount; uint16_t store_nrOfCoins; bool store_DcDataAreValid; uint8_t storeDCdynPrinterData[64]; uint8_t DCdynPrinterDataActual; uint16_t store_DCNextAccountNumber; uint16_t storeMifCardTypDataLen; uint8_t storeMcardTypData[64]; // new from 6.9.23: #define RAW_BL_DATALEN 150 uint8_t Sdata_rawData[RAW_BL_DATALEN]; uint8_t Sdata_LengthRawData; #define numberOfJsons 36 #define versionStringLength 16 char store_jsonVersion[versionStringLength][numberOfJsons]; uint8_t Sdata_changeResult; uint32_t Sdata_changedAmount; uint8_t store_tubeLev[64]; uint8_t store_bnaParameter[64]; uint8_t store_bnaCollect[8]; uint8_t store_bnaContent[64]; // Mitteilung von Hwapi zu Datif: bool Sdata_coinPaymentNow; bool Sdata_bootloadingNow; // ------------------ Data OUTPUT -------------------------------- // sendWRcmd.cpp #define CMDSTACKDEPTH 16 uint16_t nextAsynchsendCmd0[CMDSTACKDEPTH]; uint8_t nrOfCmdsInQueue; #define CMD4STACKDEPTH 8 uint16_t nextAsynchsendCmd4[CMD4STACKDEPTH]; uint8_t nextCmd4para1[CMD4STACKDEPTH]; uint8_t nextCmd4para2[CMD4STACKDEPTH]; uint8_t nextCmd4para3[CMD4STACKDEPTH]; uint8_t nextCmd4para4[CMD4STACKDEPTH]; uint8_t nrOfCmds4InQueue; #define CMD8STACKDEPTH 4 uint16_t nextAsynchsendCmd8[CMD8STACKDEPTH]; uint8_t nextCmd8para1[CMD8STACKDEPTH]; uint8_t nextCmd8para2[CMD8STACKDEPTH]; uint16_t nextCmd8para3[CMD8STACKDEPTH]; uint32_t nextCmd8para4[CMD8STACKDEPTH]; uint8_t nrOfCmds8InQueue; #define SENDASYDAT_BUFFSIZE 200 uint8_t sendAsynchDataBuf[SENDASYDAT_BUFFSIZE]; // no stack, only ONE buffer uint8_t sendAsyDatLen; #define MDBSEND_BUFFSIZE 64 uint8_t Sdata_mdbSendBuffer[MDBSEND_BUFFSIZE]; uint8_t Sdata_mdbSendLen; uint8_t prnDataParameters[4]; uint8_t prnDataBufferUser; // ONE printer doc consists of 20 x 64 byte #define MAXNROF_PRNBYTES 64 #define MAXNROF_PRNBLOCKS 20 char Sdata_PRN_TEXT[MAXNROF_PRNBLOCKS][MAXNROF_PRNBYTES]; uint8_t pPrnDataBuff; // points to next PRINTER_BLOCK //#define FDCMD_STACKDEPTH 16 // up to 1024 byte #define FDCMD_STACKDEPTH 32 // up to 2048 byte // header uint8_t nextFDwrCmd[FDCMD_STACKDEPTH]; uint8_t nextFDrdCmd[FDCMD_STACKDEPTH]; uint8_t nextFDblkNr[FDCMD_STACKDEPTH]; uint8_t nextFDshort[FDCMD_STACKDEPTH]; // short data uint8_t nextFDpara1[FDCMD_STACKDEPTH]; uint8_t nextFDpara2[FDCMD_STACKDEPTH]; uint8_t nextFDpara3[FDCMD_STACKDEPTH]; uint8_t nextFDpara4[FDCMD_STACKDEPTH]; // long data: uint8_t longFDlength[FDCMD_STACKDEPTH]; uint8_t longFDpara[FDCMD_STACKDEPTH][64]; uint8_t p_nextFDcmdsInQueue; static QSharedMemory *getShm(std::size_t s = 0); static SharedMem *getData() { Q_ASSERT_X(getShm()->data() != nullptr, "pointer access", "nullptr"); return (SharedMem *)getShm()->data(); } static SharedMem const *getDataConst() { Q_ASSERT_X(getShm()->data() != nullptr, "pointer access", "nullptr"); return (SharedMem const *)getShm()->data(); } // static SharedMemBuffer *write() static SharedMem *write() { Q_ASSERT_X(getShm()->data() != nullptr, "pointer access", "nullptr"); return (SharedMem *)getShm()->data(); } // static SharedMemBuffer const *read() static SharedMem const *read() { Q_ASSERT_X(getShm()->data() != nullptr, "pointer access", "nullptr"); return (SharedMem const *)getShm()->data(); } bool thisIsTheFirstUse(void); #if 0 static std::atomic __sharedMemLocked; static bool sharedMemLocked() { return __sharedMemLocked; } static void setSharedMemLocked() { __sharedMemLocked = true; } static void setSharedMemUnlocked() { __sharedMemLocked = false; } #endif }; #endif // SHARED_MEM_BUFFER_INCLUDED_H