Squashed 'DCPlugin/' changes from 3e3e1ef..652ad9b

652ad9b Included changes of TS for version 3.5. c85b090 Added ulong2uchar (version 3.5). 87a6ed0 Include changes of Thomas for version 3.5. 99c88c7 Included changes of Thomas for version 3.5. prn_getPrintResult(), 712ea0f Included changes of Thomas for version 3.5 of library: datif_templatePrintFinished_OK(), datif_templatePrintFinished_Err(), datif_gotNewCoin(). 86311de Add use of shared memory. Add changes for version 3.4. of library. cb44127 Added check4freeFDshortCmd. a95e174 Included some changes of Thomas. c724b5b Shift several device controller related variables to shared memory. ef79321 Massive change: using shared memory containing most device controller realted variables. a7aa75a Massive change: using shared memory containing devcie controller variables. dc00c69 Added check4freeFDlongCmd. eeb3519 Adding shared memory containing all variables necessary to check device controller related variables. 30338e2 Changed struct T_moduleCondition. Changed struct T_dynamicCondition. Added struct T_extTime. Added log_chkIfVaultRecordAvailable(). Added sys_getDeviceConditions(). set version to 3.4. 58fdea4 Added m_sharedMem. Added cash_getAmountInVault. Added cash_getNrCoinsInVault. Added sys_getDynMachineConditions() with new interface. Added sys_getDeviceConditions() with new interface. Added log_chkIfVaultRecordAvailable(). df760f1 Added shared_mem_buffer.h/.cpp. git-subtree-dir: DCPlugin git-subtree-split: 652ad9b43d24bddbc3c2636c4ff4b5d74e081e46
2023-04-18 13:43:37 +02:00 · 2023-04-18 13:43:37 +02:00 · 8b301a91dc
commit 8b301a91dc
parent ff5e3f15a4
15 changed files with 1598 additions and 1360 deletions
--- a/DCPlugin.pri
+++ b/DCPlugin.pri
@ -10,7 +10,8 @@ HEADERS += $${PWD}/include/com.h \
    $${PWD}/include/prot.h \
    $${PWD}/include/sendWRcmd.h \
    $${PWD}/include/storeINdata.h \
-    $${PWD}/include/tslib.h
+    $${PWD}/include/tslib.h \
    $${PWD}/include/shared_mem_buffer.h
 SOURCES += $${PWD}/src/com.cpp \
    $${PWD}/src/controlBus.cpp \
@ -20,4 +21,5 @@ SOURCES += $${PWD}/src/com.cpp \
    $${PWD}/src/prot.cpp \
    $${PWD}/src/sendWRcmd.cpp \
    $${PWD}/src/storeINdata.cpp \
-    $${PWD}/src/tslib.cpp
+    $${PWD}/src/tslib.cpp \
    $${PWD}/src/shared_mem_buffer.cpp
--- a/include/datIf.h
+++ b/include/datIf.h
@ -330,6 +330,11 @@ signals:
        //the requested data are stored in peripheral image
        // can be loaded with epi
    void datif_templatePrintFinished_OK();
    void datif_templatePrintFinished_Err();
    void datif_gotNewCoin();
 };
 #endif // CI_H
--- a/include/hwapi.h
+++ b/include/hwapi.h
@ -93,14 +93,15 @@ Level 3): send command: "start payment process"
 #include "interfaces.h"
 #include "datIf.h"
-
+class QSharedMemory;
 class hwapi :   public QObject,
                public hwinf
 {
    Q_OBJECT
    Q_PLUGIN_METADATA(IID "Atb.Psa2020.software.HWapi/1.0" )   //FILE "HWapi.json")
    Q_INTERFACES(hwinf)
 private:
    void sub_storeSendingText(QByteArray *buf) const;
    DownloadResult sendNextAddress(int bNum) const;
    DownloadResult sendNextDataBlock(QByteArray const &b, int bNum) const;
@ -114,8 +115,11 @@ class hwapi :   public QObject,
    bool resetDeviceController() const;
    QByteArray loadBinaryDCFile(QString filename) const;
    bool downloadBinaryToDC(QString const &bFile) const;
    QSharedMemory *m_sharedMem;
 public:
    explicit hwapi(QWidget *parent = nullptr);
    virtual ~hwapi();
    T_datif *myDatif;
@ -990,24 +994,12 @@ public:
    //                          uint16_t borough, uint16_t zone,
    //                          uint16_t alias,   char *location) const override;
    /*
    uint8_t emp_getInsertedCoinSignal(void) const override;
        // can be called one time after each coin
        // emp_chkIfCoinInserted() must be called before!
    uint16_t emp_getInsertedCoinValue(void) const override;
        // can be called one time after each coin
        // emp_chkIfCoinInserted() must be called before!
    uint8_t emp_getCoinError(void) const override;
        // can be called one time after each coin
        // emp_chkIfCoinInserted() must be called before!
    */
    bool rtc_setTimeDateDirect(struct Trtc_DateTime *DateTime) const override;
        // return true if successful. could fail if more the 8 commands are waiting
    bool rtc_getExtendedTime(uint8_t *leng, uint8_t *data) const override;
    bool rtc_getExtendedTime(struct T_extTime *exTime) const override;
    bool sys_runCompleteTest(void) const override;
        // warning: lasts 20s in one pace
@ -1032,15 +1024,18 @@ public:
        // nr = 1..32
        // return true if sending, false if cmd-stack is full
-    void log_getHoldAccountNumbers(uint32_t *accNr ) const override;
+    void log_getHoldAccountNumbers(uint8_t *nrOfVals, uint16_t *accNr ) const override;
    // returns all acc nrs of the backuped vault records
-        // use: uint32_t backupedAccNumbers[8]
+    // use: uint16_t backupedAccNumbers[8]
    bool log_selectVaultRecord(uint16_t accountNr ) const override;
        // return true if sending, false if cmd-stack is full
        // and trigger transfer
-//request, isAvailable
+    bool log_chkIfVaultRecordAvailable(void) const override;
-    void log_getVaultRecord(struct T_vaultRecord *retVR) const override;
+        // return true if completly received
    bool log_getVaultRecord(struct T_vaultRecord *retVR) const override;
        // which was selected by: log_selectVaultRecord()
        // to be forwarded to Ismas
@ -1050,7 +1045,8 @@ public:
    bool prn_printTestTicket(void) const override;
        // return true if sending to DC OK, false if cmd-stack is full
-    bool cash_startPayment(uint16_t amount) const override;
+    bool cash_startPayment(uint32_t amount) const override;
        // 17.4.23TS: extended to 32bit
    bool cash_cancelPayment(void) const override;
        // and return coins
@ -1078,30 +1074,47 @@ public:
-    uint8_t mif_getCardType(QString cardholder) const override;
+    uint8_t mif_getCardType(QString *cardholder) const override;
        // return 1,2,3,4 = upper, lower access card, printer test, coin test
        // cardholder: 7byte Name-String
    uint64_t sys_getWakeSource(void) const override;
        // retval: 6 bytes, bit coded, 1=event keeps DC awake
    //void sys_getDeviceConditions(struct T_moduleCondition *devCond) const override;
    void sys_getDeviceConditions(uint8_t *leng, uint8_t *data) const override;
-    //void sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const override;
+    void sys_getDeviceConditions(struct T_moduleCondition *devCond) const override;
    void sys_getDynMachineConditions(uint8_t *leng, uint8_t *data) const override;
    void sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const override;
    uint32_t cash_getAmountInVault(void) const override;
    uint16_t cash_getNrCoinsInVault(void) const override;
    uint8_t prn_getPrintResult() const override;
    uint8_t prn_getCurrentPrinterState() const override;
        //        0: printer OK
        //          bit0: near paper end          bit1: no paper
        //          bit2: temperature error       bit3: error head open
        //          bit4: paper jam in cutter
        //          bit6: no response             bit7: serial rec. error
        //			bit5: printer not ready
 signals:
    void hwapi_templatePrintFinished_OK(void) const override;
    void hwapi_templatePrintFinished_Err(void) const override;
    void hwapi_gotNewCoin(void) const override;
    void hwapi_vendStopByMax(void) const override;
    void hwapi_vendStopByPushbutton(void) const override;
-private:
+ private slots:
-    void sub_storeSendingText(QByteArray *buf) const;
+    void hwapi_slotPrintFinished_OK(void);
-
+    void hwapi_slotPrintFinished_Err(void);
-
+    void hwapi_slotGotCoin(void);
 };
--- a/include/interfaces.h
+++ b/include/interfaces.h
@ -167,30 +167,29 @@ struct T_moduleCondition
        // 100..150	= WARNING
        // 200..250	= ERROR
-        uint8_t	structStart;		// always first!!!
+        uint8_t	ram;
-        uint8_t	ram;				// v
+        uint8_t	intEe;
-        uint8_t	intEe;				// v
+        uint8_t	extEe;
        uint8_t	extEe;				// v
        uint8_t	rtc;				// 1: time/date OK   100: time not plausible  200: hardware error
-        uint8_t	boardHw;			// v
+        uint8_t	boardHw;
-        uint8_t	printer;			// v
+        uint8_t	printer;
-        uint8_t	modem;				// v
+        uint8_t	modem;
        uint8_t	signal;				//		1...99
        uint8_t	regist;				// 100:not  1:reg  2:ping OK   3:gotTime
        uint8_t	mdbBus;
        uint8_t	coinChecker;		// EMP, OMP or mei-cashflow
-        uint8_t	coinEscrow;			// v
+        uint8_t	coinEscrow;
-        uint8_t	mifareReader;		// v
+        uint8_t	mifareReader;
-        uint8_t	creditTerm;			// not available
+        uint8_t	creditTerm;
-        uint8_t	coinReject;			// v
+        uint8_t	coinReject;
-        uint8_t	coinSafe;			// v
+        uint8_t	coinSafe;
-        uint8_t   billSafe;			// v
+        uint8_t   billSafe;
-        uint8_t	voltage;			// v	// 1:11..14V
+        uint8_t	voltage;			// 1:11..14V
-        uint8_t   temper;				// v
+        uint8_t   temper;
        uint8_t	poweronTest;
        uint8_t   doorState;			// 1: alles zu  200: t?r offen + bit1(S) +bit2(CB) + bit3(CB)
@ -211,54 +210,81 @@ struct T_moduleCondition
 struct T_dynamicCondition
 {
-        // dynamic conditions, change rapidly and frequently
+        char allDoorsDebounced;
-        // these are values for the Heartbeat
+        char openedAuthorized;
-
+        uint8_t CBinDebounced;
        // T?rschalter entprellt:
        char upperDoor;		// 0:fehlt  1:drin
        char middleDoor;
        char lowerDoor;
        char coinBox;
        char billBox;
        char modeAbrech;
        char onAlarm;
        char nowCardTest;
        char nowPayment;
        char lastMifCardType;
        char openedAuthorized;
        char allDoorsDebounced;
        uint8_t lastSDoorState;
        uint8_t lastVDoorState;
        uint8_t CBinDebounced;
        uint8_t lastCBstate;
        char        paymentInProgress;
        char        res1;
        char res2;
        char res3;
        uint16_t    U_Batt;
        uint16_t	Temperatur;
        uint16_t	cash_storedaccNumbers[8];	// List all stored accounting numbers in ext. eeprom
        uint16_t	nrCoinsInBox;
        uint16_t	resui1;
        uint32_t	amountInBox;
        uint32_t	amountJustPaid;
        uint16_t	lastInsCoinType;	// wahrscheinlich uchar
        uint16_t	resui2;
        uint32_t	totalTransVolume;
        uint32_t	totalNrOfVends;
-
+        char        jsonValid_config;
        char        jsonValid_device;
        char        jsonValid_cash;
        char        jsonValid_print;
        char        jsonValid_serial;
        char        jsonValid_time;
        char        lastFileType;
 // 44
        uint8_t     MifCardHolder[8];
        uint8_t     resultOfLastTemplPrint;
                    // 0: unknown or printing in progress
                    // 1: OK, doc was printed   2: error, doc was not printed
        uint8_t     lastPrinterStatus;
                    //        0: printer OK
                    //          bit0: near paper end          bit1: no paper
                    //          bit2: temperature error       bit3: error head open
                    //          bit4: paper jam in cutter
                    //          bit6: no response             bit7: serial rec. error
                    //			bit5: printer not ready
 //54
 };
 struct T_extTime
 {
    uint8_t     Hours;
    uint8_t     Min;
    uint8_t     Sec;
    uint8_t     Year;
    uint8_t     Month;
    uint8_t     Day;
    uint8_t     DOW;
    uint8_t     res1;
    uint16_t    MinOfDay;
    uint16_t    res2;
    uint32_t    SecOfDay;
    uint8_t     isLeapYear;
    uint8_t     nxtLeapYear;
    uint8_t     lastLeapYear;
    uint8_t     hoursOfThisWeek;
    uint16_t    minutesOfThisWeek;
    uint16_t    hoursOfThisMonth;
    uint16_t    daysOfThisYear;
    uint16_t    GetHoursOfYear;
    uint16_t    res3;
    uint32_t    GetMinutesOfYear;
    uint8_t     getWakeIntvSec;
    uint8_t     res4;
    uint16_t    res5;
    uint32_t    MinutesOfMillenium;
 };
 class hwinf
 {
@ -1371,6 +1397,8 @@ public:
 */
    virtual bool rtc_getExtendedTime(struct T_extTime *exTime) const=0;
    virtual bool sys_runCompleteTest(void) const=0;
        // warning: lasts 20s in one pace
        // return true if sending, false if cmd-stack is full
@ -1395,15 +1423,18 @@ public:
        // nr = 1..32
        // return true if sending, false if cmd-stack is full
-        virtual void log_getHoldAccountNumbers(uint32_t *accNr ) const=0;
+    virtual void log_getHoldAccountNumbers(uint8_t *nrOfVals, uint16_t *accNr ) const=0;
        // returns all acc nrs of the backuped vault records
-        // use: uint32_t backupedAccNumbers[8]
+        // use: uint16_t backupedAccNumbers[8]
    virtual bool log_selectVaultRecord(uint16_t accountNr ) const=0;
        // return true if sending, false if cmd-stack is full
        // and trigger transfer
-//request, isAvailable
+    virtual bool log_chkIfVaultRecordAvailable(void) const=0;
-virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
+        // return true if completly received
    virtual bool log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
        // which was selected by: log_selectVaultRecord()
        // to be forwarded to Ismas
@ -1413,7 +1444,8 @@ virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
    virtual bool prn_printTestTicket(void) const=0;
        // return true if sending to DC OK, false if cmd-stack is full
-    virtual bool cash_startPayment(uint16_t amount) const=0;
+    virtual bool cash_startPayment(uint32_t amount) const=0;
        // 17.4.23TS: extended to 32bit
    virtual uint32_t getInsertedAmount(void) const=0;
@ -1437,18 +1469,13 @@ virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
        // conclude payment process and return all inserted coins
-
+    virtual uint8_t mif_getCardType(QString *cardholder) const=0;
    virtual uint8_t mif_getCardType(QString cardholder) const=0;
        // return 1,2,3,4 = upper, lower access card, printer test, coin test
        // cardholder: 7byte Name-String
    virtual uint64_t sys_getWakeSource(void) const =0;
        // retval: 6 bytes, bit coded, 1=event keeps DC awake
    //virtual void sys_getDeviceConditions(struct T_moduleCondition *devCond) const=0;
    virtual void sys_getDeviceConditions(uint8_t *leng, uint8_t *data) const=0;
    /*
@ -1485,8 +1512,7 @@ virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
     */
-
+    virtual void sys_getDeviceConditions(struct T_moduleCondition *devCond) const=0;
    //virtual void sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const=0;
    virtual void sys_getDynMachineConditions(uint8_t *leng, uint8_t *data) const=0;
 /*
@ -1552,6 +1578,31 @@ virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
 */
    virtual void sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const=0;
    // content of Cashbox
    virtual uint32_t cash_getAmountInVault(void) const=0;
    virtual uint16_t cash_getNrCoinsInVault(void) const=0;
    virtual uint8_t prn_getPrintResult() const=0;
    // in case of print-error get detailed error:
    virtual uint8_t prn_getCurrentPrinterState() const=0;
        //        0: printer OK
        //          bit0: near paper end          bit1: no paper
        //          bit2: temperature error       bit3: error head open
        //          bit4: paper jam in cutter
        //          bit6: no response             bit7: serial rec. error
        //			bit5: printer not ready
 signals:
    virtual void hwapi_templatePrintFinished_OK(void) const=0;
    virtual void hwapi_templatePrintFinished_Err(void) const=0;
    virtual void hwapi_gotNewCoin(void) const=0;
    virtual void hwapi_vendStopByMax(void) const=0;
    virtual void hwapi_vendStopByPushbutton(void) const=0;
 };
@ -1569,10 +1620,15 @@ virtual void log_getVaultRecord(struct T_vaultRecord *retVR) const=0;
 // 29.03.2023: V3.1 some extensions for PSA1256_ptu5,
 //             V3.2 Bootloader improvement
 // 12.04.2023: V3.3 new features extended: loading and using Json-files, cash-collection, cash-data-logging
 // 14.04.2023: V3.4 new features extended: sys_getDynMachineConditions, sys_getDeviceConditions and
 //                    rtc_getExtendedTime return struct in addition. New function to select and get VaultRecord
 //
 //#define HWINF_iid "Atb.Psa2020.software.HWapi/3.1"
 //#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/3.1"
-#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/3.3"
+//#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/3.3"
 //#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/3.4"
 #define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/3.5"
--- a/include/sendWRcmd.h
+++ b/include/sendWRcmd.h
@ -218,7 +218,10 @@ bool sendFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8
 bool sendFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4);
 uint8_t check4FDshortCmd(void);
-    // returns number of waiting command
+    // returns number of waiting command, maxFDCMD_STACKDEPTH
 uint8_t check4freeFDshortCmd(void);
    // returns number of free places in short-command stack
 #define     FDLONG_STACKDEPTH    16
 void longFDcmd_clrStack(void);
@ -230,6 +233,9 @@ bool longFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, ui
 uint8_t check4FDlongCmd(void);
    // returns number of waiting command
 uint8_t check4freeFDlongCmd(void);
    // returns number of free places in long-command stack
 #endif
--- a/include/shared_mem_buffer.h
+++ b/include/shared_mem_buffer.h
@ -0,0 +1,289 @@
 #ifndef SHARED_MEM_BUFFER_INCLUDED_H
 #define SHARED_MEM_BUFFER_INCLUDED_H
 #include <cinttypes>
 #include <atomic>
 #include <QSharedMemory>
 struct SharedMemBuffer {
    struct rs {
        char comportName[16]; // z.B. "COM48"
        char baudStr[16];     // z.B. "19200"
        int  baudNr;          // 0...5 oder -1
        uint8_t connect;      // 0,1
        bool portIsOpen;
    } rs;
    char AutoEmissionOn;     // 1: zyklisch Anfragen zum Slave senden
    struct datif {
        uint16_t sendingPeriod;
        bool     sendingPer_changed;
    } datif;
 #if 0
    // controlBus.cpp
    char        txt4comStateLine[32];
    char        txt4HsStateLine[32];
    char        txt4masterStateLine[32];
    char        txt4resultStateLine[32];
    char        txt4dataLine[32];
    char        txt4datifReceive[32];
    char        txt4diagWindow[32];
    char        sndTxt4diagWindow[32];
    bool        Sdata_serialTestResult[32];
    uint8_t     Sdata_pProtResultOk[32];
    uint16_t    Sdata_receivedDataLength[32];
    uint8_t     Sdata_receivedDataBlock[64];
    // datif.cpp
    uint8_t     dif_dataStep;
    uint8_t     dif_scanStep;
    uint8_t     RDBLKNR;
    uint8_t     datif_OutCmdpara1;
    uint8_t     datif_OutCmdpara2;
    uint8_t     datif_OutCmdpara3;
    uint8_t     datif_OutCmdpara4;
    uint16_t    datif_OutCmdpara5;
    uint32_t    datif_OutCmdpara6;
    uint8_t     cycl_running;
    // dcBL.cpp
    uint8_t     dcBL_LastBLcmd;   // stored the last sent cmd in order to analys response
    uint8_t     dcBL_AtbBinFile[300000];
    uint32_t    dcBL_fileSize;
    uint16_t    dcBL_nrOfBlocks;
    uint16_t    dcBL_fileCrc;
    uint8_t     dcBL_myBuf[300000]; // same content like "dcBL_AtbBinFile" but bytewise
    char        BlResp[50][32];
    uint8_t     dcBL_step;
    uint8_t     dcBL_state;
    uint16_t    dcBL_BlkCtr;
    uint16_t    dcBL_cyclCtr;
    uint16_t    repeatCtr;
    uint8_t     Sdata_rawData[150];
    uint8_t     Sdata_LengthRawData;
    // hwapi.cpp
    uint16_t    hwapi_shutterTime;
    char        ticketTemplate[1024];
    // sendWRcmd.cpp
    uint16_t    nextAsynchsendCmd0[16];
    uint8_t     nrOfCmdsInQueue;
    uint16_t    nextAsynchsendCmd4[8];
    uint8_t     nextCmd4para1[8];
    uint8_t     nextCmd4para2[8];
    uint8_t     nextCmd4para3[8];
    uint8_t     nextCmd4para4[8];
    uint8_t     nrOfCmds4InQueue;
    uint16_t    nextAsynchsendCmd8[4];
    uint8_t     nextCmd8para1[4];
    uint8_t     nextCmd8para2[4];
    uint16_t    nextCmd8para3[4];
    uint32_t    nextCmd8para4[4];
    uint8_t     nrOfCmds8InQueue;
    uint8_t     sendAsynchDataBuf[160]; // no stack, only ONE buffer
    uint8_t     sendAsyDatLen;
    uint8_t     Sdata_mdbSendBuffer[64];
    uint8_t     Sdata_mdbSendLen;
    uint8_t     prnDataParameters[4];
    uint8_t     prnDataBufferUser;
    char        Sdata_PRN_TEXT[20][64];
    uint8_t     pPrnDataBuff;        // points to next PRINTER_BLOCK
    uint8_t     nextFDwrCmd[16];
    uint8_t     nextFDrdCmd[16];
    uint8_t     nextFDblkNr[16];
    uint8_t     nextFDpara1[16];
    uint8_t     nextFDpara2[16];
    uint8_t     nextFDpara3[16];
    uint8_t     nextFDpara4[16];
    uint8_t     p_nextFDcmdsInQueue;
    uint8_t     longFDwrCmd[16];
    uint8_t     longFDrdCmd[16];
    uint8_t     longFDblkNr[16];
    uint8_t     longFDlength[16];
    uint8_t     longFDpara[16][64];
    uint8_t     p_longFDcmdsInQueue;
    // storeInData.cpp
    bool        indat_savePrnPwr;
    bool        indat_saveMifPwr;
    bool        indat_MdbIsOn;
 #endif
    uint8_t     ndbs;
    uint8_t     pari;
    uint8_t     nsb;
    uint8_t     br;
 #define MAXNROF_GENSTR 16
    char        genStrings[MAXNROF_GENSTR][64];
 #define MAXNROF_AI 4
    uint16_t    AI_val[MAXNROF_AI];
    struct DigitalInputs {
        uint8_t doorSwitch;
        uint8_t vaultSwitch;
        uint8_t lockSwitch;
        uint8_t opto;
        uint8_t aux;
        bool wakeFromPtu;
        bool wakeFromMdb;
        bool wakeFromModem;
        bool PrnReady;
        bool CoinAttach;
        bool CoinEscrowOpen;
        bool mifCardTap;
        bool contactPwrOn;
        bool mifarePwrOn;
        bool rdbk_mdbTxd;
        bool AuxPwrOn;
        bool gsmPwrOn;
        bool creditPwrOn;
        bool printerPwrOn;
        bool mdbPwrOn;
        bool rejMot_home;
        uint8_t npe_sensor;
    } din;
    struct DigitalOutputs {
        uint8_t mbdRxTst;
        uint8_t motorBits;
        uint8_t serialSwitch;                 // serial drv on/off, Serial mux1, Serial mux2
        uint8_t ledsAndFan;
        uint8_t laermUndRelay;
        uint8_t ptuWake;
        uint8_t auxPower;
        uint8_t coinShutter;
        uint8_t coinEscrow;
        uint8_t printerPower;
    } dout;
    struct Sdata {
 #define NROFMIFSTATEBYTES       40
 #define PRN_STATE_ARRAY_SIZE    20
 #define PRN_STATE_FONT_SIZE     20
        uint8_t MIF_STATE[NROFMIFSTATEBYTES];
        uint8_t MIF_DATA[12][64];
        uint8_t PRN_STATE[PRN_STATE_ARRAY_SIZE];
        uint8_t PRN_FONTS[PRN_STATE_FONT_SIZE];
        bool mdb_busRdy;
        bool mdb_V12on;
        bool mdb_V5on;
        uint8_t mdbNrOfRecData;
        uint8_t RecBuff[40];
        uint8_t empNrOfsettings;
        uint8_t emp_settingsBuff[66];
        uint8_t NrOfDeviceSetting;
        uint8_t DeviceSettingBuff[66];
        uint8_t NrOfMachineIDSetting;
        uint8_t NrOfMachineIDBuff[66];
        uint64_t slaveUID;
        uint8_t UIDstr[8];
 #define MAXNROF_MEASURE 4
        uint32_t measurement[MAXNROF_MEASURE];
    } Sdata;
    uint8_t mif_cardType;
    uint8_t mif_cardHolder[8];
 #define MEMDEPTH_GOTCOINS (16)
    struct T_coin {
        uint8_t valid;
        uint8_t signal;
        uint8_t error;
        uint8_t pad;
        uint16_t value;
    } gotCoin[MEMDEPTH_GOTCOINS];
    uint8_t ctr_gotCoin;
    struct store {
        uint32_t insertedAmount;
        uint16_t lastCoinType[64];
        uint16_t lastCoinValue[64];
        uint64_t wakeSrc;
        uint8_t rbDevParamLen;
        uint8_t rbDevParams[66];
        uint8_t deviceCondLen;
        uint8_t deviceCond[66];
        uint8_t machCondLen;
        uint8_t machCond[66];
        uint8_t DcBackupNrOfAccNr;
        uint16_t DcBackupAccNr[16];    // z.Z. nur 8
        uint8_t gotNrBlocksOfVaultRec;
        uint8_t vaultrecord[360];
        uint32_t amount;
        uint16_t nrOfCoins;
    } store;
    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;
    static QSharedMemory *getShm(std::size_t s = 0);
    static SharedMemBuffer *getData() {
        return (SharedMemBuffer *)getShm()->data();
    }
    static SharedMemBuffer const *getDataConst() {
        return (SharedMemBuffer const *)getShm()->data();
    }
 #if 0
    static std::atomic<bool> __sharedMemLocked;
    static bool sharedMemLocked() {
        return __sharedMemLocked;
    }
    static void setSharedMemLocked() {
        __sharedMemLocked = true;
    }
    static void setSharedMemUnlocked() {
        __sharedMemLocked = false;
    }
 #endif
 };
 #endif // SHARED_MEM_BUFFER_INCLUDED_H
--- a/include/storeINdata.h
+++ b/include/storeINdata.h
@ -8,7 +8,7 @@
 #define MAXNROF_AO              3
-#define MAXNROF_GENSTR          16
+//#define MAXNROF_GENSTR          16
 #define MAXNROF_CONTR_PORTS     11
 #define MAXNROF_DIports         2
 #define MAXNROF_DOports         2
@ -32,9 +32,6 @@ bool indat_isMifareOn();
 void indat_storeMDBisOn(bool isOn);
 bool indat_isMdbOn();
 void gpi_storeSlaveSerParams(uint8_t slaveBaudRate, uint8_t NrDataBits,
                             uint8_t parity, uint8_t NrStopBits);
@ -43,23 +40,16 @@ void epi_getSlaveSerParams(uint8_t *slaveBaudRate, uint8_t *NrDataBits,
 QString epi_getSlaveParamSTR();
 void gpi_storeGenerals(uint8_t genNr, QString text);
    // 0=HW   1=SW  2=State
 QString epi_loadGenerals(uint8_t genNr);
 // genNr=0=HW   1=SW  2=State
-void gpi_storeUID(uint8_t *buf8byteUid);
+void gpi_storeUID(uint8_t const *buf8byteUid);
 // buffer size: 8 byte
 void epi_getUIDdec(uint8_t *buf8byteUid);
 // buffer size: 8 byte
 QString epi_getUIDstr();
@ -89,7 +79,7 @@ void epi_getSpecialYearTimeDate(uint16_t *DayOfYear, uint16_t *HoursOfYear, uint
 // ///////////////////////////////////////////////////////////////////////////////////
-#define MAXNROF_AI              4
+// #define MAXNROF_AI              4
 void gpi_storeAIs(uint8_t aiNr, uint16_t val);   // rs -> Sdata
@ -138,185 +128,119 @@ void gpi_storeDI_optos(uint8_t indatOpto);
 uint8_t epi_getDI_optos(void);
    // bit0: opto in 1    1: opto in 2
-void gpi_storeDI_auxIn(uint8_t indatAuxIn);
+uint8_t gpi_storeDI_auxIn(uint8_t indatAuxIn); // Aux0...5
-    // Aux0...5
+uint8_t epi_getDI_auxIn(void);                 // bit0: auxin 1  ...  5: auxin 6
 uint8_t epi_getDI_auxIn(void);
    // bit0: auxin 1  ...  5: auxin 6
 void gpi_storeDI_ptuWake(uint8_t indat);
 bool gpi_storeDI_ptuWake(bool w);
 bool epi_getDI_ptuWake(void);
-void gpi_storeDI_mbdWake(uint8_t indat);
+bool gpi_storeDI_mbdWake(bool w);
 bool epi_getDI_mdbWake(void);
-void gpi_storeDI_prnReady(uint8_t indat);
+bool gpi_storeDI_prnReady(bool ready);
 bool epi_getDI_prnReady(void);
-void gpi_storeDI_CoinAttach(uint8_t indat);
+bool gpi_storeDI_CoinAttach(bool attach);
 bool epi_getDI_CoinAttach(void);
-void gpi_storeDI_CoinEscrow(uint8_t indat);
+bool gpi_storeDI_CoinEscrow(bool ce);
 bool epi_getDI_CoinEscrow(void);
-void gpi_storeDI_mifareCardTapped(uint8_t indat);
+bool gpi_storeDI_mifareCardTapped(bool tapped);
 bool epi_getDI_mifareCardTapped(void);
-void gpi_storeDI_modemWake(uint8_t indat);
+bool gpi_storeDI_modemWake(bool w);
 bool epi_getDI_modemWake(void);
-
+bool gpi_storeDI_contactPowerIsOn(bool on);
 void gpi_storeDI_contactPowerIsOn(bool di_contact_PwrOn);
 bool epi_getDI_contactPwr(void);
-void gpi_storeDI_MifarePowerIsOn(bool di_mifare_PwrOn);
+bool gpi_storeDI_MifarePowerIsOn(bool on);
 bool epi_getDI_mifarePwr(void);
-void gpi_storeDI_readbackMdbTxD(bool di_rdbkMdbTxd);
+bool gpi_storeDI_readbackMdbTxD(bool rdbkMdbTxd);
 bool epi_getDI_mdbTxd(void);
-void gpi_storeDI_AuxPowerIsOn(bool di_Aux_PwrOn);
+bool gpi_storeDI_AuxPowerIsOn(bool on);
 bool epi_getDI_auxPwr(void);
-void gpi_storeDI_GsmPowerIsOn(bool di_gsm_PwrOn);
+bool gpi_storeDI_GsmPowerIsOn(bool on);
 bool epi_getDI_gsmPwr(void);
-void gpi_storeDI_CreditPowerIsOn(bool di_credit_PwrOn);
+bool gpi_storeDI_CreditPowerIsOn(bool on);
 bool epi_getDI_creditPwr(void);
-void gpi_storeDI_PrinterPowerIsOn(bool di_printer_PwrOn);
+bool gpi_storeDI_PrinterPowerIsOn(bool on);
 bool epi_getDI_printerPwr(void);
-void gpi_storeDI_MdbPowerIsOn(bool di_mdb_PwrOn);
+bool gpi_storeDI_MdbPowerIsOn(bool on);
 bool epi_getDI_mdbPwr(void);
-
+bool gpi_storeDI_rejMot_home(bool reject);
 void gpi_storeDI_rejMot_home(bool di);
 bool epi_getDI_rejectMotor_homepos(void);
-void gpi_storeDI_paperLow(uint8_t di);
+uint8_t gpi_storeDI_paperLow(uint8_t di);
 uint8_t epi_getDI_npe_sensor(void);
    // 0: Sensor sees paper 1: no paper 99: off
 // ///////////////////////////////////////////////////////////////////////////////////
 //          readback digital outputs
 // ///////////////////////////////////////////////////////////////////////////////////
-void gpi_storeDO_mdbRxTst(uint8_t do_mbdRxTst);
+uint8_t gpi_storeDO_mdbRxTst(uint8_t do_mbdRxTst);
 bool epi_getDO_mdbRxTestOut(void);
-
+uint8_t gpi_storeDO_motorOutputs(uint8_t Pwr);
 void gpi_storeDO_motorOutputs(uint8_t Pwr);
 uint8_t epi_getDO_motorOuts(void);
    // bit0: upper lock forward    bit 1 backward
    // bit2: lower lock forward    bit 3 backward
-
+uint8_t gpi_storeDO_serialSwitch(uint8_t state);
 void gpi_storeDO_serialSwitch(uint8_t state);
    // serial drv on/off, Serial mux1, Serial mux2
 uint8_t epi_getDO_serialSwitch(void);
    // serial drv on/off, Serial mux1, Serial mux2
 bool epi_getDO_serialDriverIsOn(void);
 bool epi_getDO_serialMux1isSetToPrinter(void);
    // mux1 off: serial is switched to printer
 bool epi_getDO_serialMux1isSetToModem(void);
    // mux1 on: serial is switched to modem
 bool epi_getDO_serialMux2isSetToCredit(void);
    // mux2 off: serial is switched to credit card terminal
 bool epi_getDO_serialMux2isSetToMifare(void);
    // mux2 on: serial is switched to mifare reader
-
+uint8_t gpi_storeDO_ledsAndFan(uint8_t ledState);
 void gpi_storeDO_ledsAndFan(uint8_t ledState);
 bool epi_getDO_led_coin(void);
 bool epi_getDO_led_front(void);
 bool epi_getDO_led_ticket(void);
 bool epi_getDO_led_pin(void);
 bool epi_getDO_led_start(void);
 bool epi_getDO_led_inside(void);
 bool epi_getDO_fan(void);
-void gpi_storeDO_sirenAndRelay(uint8_t sirenRelay);
+uint8_t gpi_storeDO_sirenAndRelay(uint8_t sirenRelay);
 bool epi_getDO_sirene(void);
 bool epi_getDO_relay(void);
-void gpi_storeDO_ptuWake(uint8_t state);
+uint8_t gpi_storeDO_ptuWake(uint8_t state);
 bool epi_getDO_ptuWake(void);
-void gpi_storeDO_auxPower(uint8_t pwr);
+uint8_t gpi_storeDO_auxPower(uint8_t pwr);
 bool epi_getDO_auxPower(void);
-
+uint8_t gpi_storeDO_coinShutter(uint8_t state);
 void gpi_storeDO_coinShutter(uint8_t state);
 bool epi_getDO_coinShutterOpen(void);
 bool epi_getDO_coinShutterTest(void);
-
+uint8_t gpi_storeDO_coinEscrow(uint8_t state);
 void gpi_storeDO_coinEscrow(uint8_t state);
 uint8_t epi_getDO_coinEscrow(void);
    // retval: 1:return flap is open   2:take flap is open    0:closed
-
+uint8_t gpi_storeDO_printerPwrOn(uint8_t state);
 void gpi_storeDO_printerPwrOn(uint8_t state);
 uint8_t epi_getDO_printerPwr(void);
 // ---------------------------------------------------------------------------------------------
 // counterchecks, make sure that DC-outputs are correct
@ -363,21 +287,14 @@ bool epi_cntchk_Mot2Fon(void);
 uint8_t gpi_storeMdbRecData(uint8_t length, uint8_t *buf);
    // datif store received mdb data
 uint8_t epi_getMdbResponse(void);
     // 0=no response  1=ACK  2=NAK  3=ACK with data
 uint8_t epi_getMdbRecLength(void);
    // 0...31
 uint8_t epi_restoreMdbRecData(uint8_t *buf);
    // hwapi reads received mdb data from PI
-
+uint8_t gpi_storeMifReaderStateAndCardType(uint8_t const *buf);
 uint8_t gpi_storeMifReaderStateAndCardType(uint8_t *buf);
 /* data description:
 byte 0: current read state: 0=power off  1=reader-fault 2=ready
@ -401,41 +318,24 @@ byte 32: result, always 0
 uint8_t epi_restoreMifState(uint8_t *buf, uint8_t maxBufferSize);
    // retval 0=OK 1=error host buffer too small
-
+bool gpi_storeMifCardData(uint8_t blkNr, uint8_t const *receivedData);
 void gpi_storeMifCardData(uint8_t blkNr, uint8_t *receivedData);
    // blkNr=0...11    receivedData[64]
 uint8_t epi_restoreMifData(uint8_t blkNr, uint8_t *buf, uint8_t maxBufferSize);
    // blkNr=0...11    return buf[64]
    // retval: 1=error 0=OK
 #define pi_prnStateArraySize    20
 #define pi_prnFontArraySize     20
 void epi_restorePrinterState(uint8_t *buf);
-
+void gpi_storePrinterState(uint8_t const *buf);
 void gpi_storePrinterState(uint8_t *buf);
 void epi_restorePrinterFonts(uint8_t *buf);
 void gpi_storePrinterFonts(uint8_t const *buf);
-void gpi_storePrinterFonts(uint8_t *buf);
+bool gpi_storeMdbState(bool busReady, bool V12on, bool V5on);
 void gpi_storeMdbState(uint8_t busReady, uint8_t V12on, uint8_t V5on );
 bool epi_restoreMdbBusReady(void);
 bool epi_restoreMdbV12Ready(void);
 bool epi_restoreMdbV5Ready(void);
-
+void gpi_storeMdbResponse(uint8_t leng, uint8_t const *data);
 void gpi_storeMdbResponse(uint8_t leng, uint8_t *data);
 void epi_restoreMdbResponse(uint8_t *leng, uint8_t *data);
    // last received mdb answer (from mdb device)
    // only needed if a special command was sent directly
@ -444,12 +344,9 @@ void epi_restoreMdbResponse(uint8_t *leng, uint8_t *data);
    // DB2: nr of received (payload) data bytes (apart from ACK, can be 0....34)
    // DB3...DB38: rec.data (payload)
-
+void gpi_storeEmpSettings(uint8_t leng, uint8_t const *data);
 void gpi_storeEmpSettings(uint8_t leng, uint8_t *data);
 void epi_restoreEmpSettings(uint8_t *leng, uint8_t *data);
 /*
 void gpi_storeEmpCoinSignal(uint8_t leng, uint8_t *data);
@ -463,67 +360,60 @@ void epi_restoreEmpCoinSignal(uint8_t *leng, uint8_t *data);
 void epi_clearEmpCoinSignal();
 */
 #define     MEMDEPTH_GOTCOINS       16
-void gpi_storeEmpCoinSignal(uint8_t leng, uint8_t *data);
+void gpi_storeEmpCoinSignal(uint8_t leng, uint8_t const *data);
 uint8_t epi_isNewCoinLeft(void);
    // retval: 0...16 coins left in FIFO
 void epi_restoreEmpCoinSignal(uint8_t *valid, uint8_t *signal, uint8_t *error, uint16_t *value);
-
+void gpi_storeRbDeviceSettings(uint8_t leng, uint8_t const *data);
 void gpi_storeRbDeviceSettings(uint8_t leng, uint8_t *data);
 void epi_restoreRbDeviceSettings(uint8_t *leng, uint8_t *data);
-
+void gpi_storeMachineIDsettings(uint8_t leng, uint8_t const *data);
 void gpi_storeMachineIDsettings(uint8_t leng, uint8_t *data);
 void epi_restoreMachineIDsettings(uint8_t *leng, uint8_t *data);
 void epi_clearCurrentPayment(void);
 void gpi_storeCurrentPayment(uint32_t insertedAmount, uint16_t lastCoinType, uint16_t lastCoinValue);
 uint32_t epi_CurrentPaymentGetAmount(void);
 uint16_t epi_CurrentPaymentGetLastCoin(void);
 bool epi_CurrentPaymentGetAllCoins(uint16_t *types, uint16_t *values);
    // alle bei diesem Verkauf eingeworfenen Münzen sind gespeichert falls die jmd. braucht
-
+void gpi_storeWakeSources(uint8_t const *receivedData);
 void gpi_storeWakeSources(uint8_t *receivedData);
 uint64_t epi_getWakeSources(void);
-
+void gpi_storeExtendedTime(uint8_t leng, uint8_t const *data);
 void gpi_storeExtendedTime(uint8_t leng, uint8_t *data);
 void epi_restoreExtendedTime(uint8_t *leng, uint8_t *data);
-
+void gpi_storeDeviceConditions(uint8_t leng, uint8_t const *data);
 void gpi_storeDeviceConditions(uint8_t leng, uint8_t *data);
 void epi_restoreDeviceConditions(uint8_t *leng, uint8_t *data);
-
+void gpi_storeDynMachineConditions(uint8_t leng, uint8_t const *data);
 void gpi_storeDynMachineConditions(uint8_t leng, uint8_t *data);
 void epi_restoreDynMachineConditions(uint8_t *leng, uint8_t *data);
 void gpi_storeDCbackupAccNr(uint8_t leng, uint8_t const *data);
 void epi_restoreDCbackupAccNr(uint8_t *leng, uint16_t *accNrs);
    // return accNrs[0..7]
 void epi_iniVRstorage(void);
 void gpi_storeVaultRecord(uint8_t blkNr, uint8_t const *data);
 bool epi_checkIfVaultRecordAvailable(void);
 bool epi_restoreVaultRecord(uint16_t *length, uint8_t *buf);
    // true if completly received
 void gpi_storeCBlevel(uint32_t amount, uint16_t nrOfCoins);
 uint32_t epi_getCashBoxContent(void);
 uint16_t epi_getNrOfCoinsInCashBox(void);
 void gpi_storeNewMifareCard(uint8_t typ, uint8_t const *holder);
 uint8_t epi_mifGetCardType(uint8_t const *holder);
    //holder[8] = name of card holder
    // retval Type of MifareCard, 1=upper door, 2=lower door 3=test printer 4=test coins
 #endif
--- a/include/tslib.h
+++ b/include/tslib.h
@ -13,6 +13,9 @@ uint32_t uchar2ulong(uint8_t Highbyte, uint8_t MHbyte, uint8_t MLbyte, uint8_t L
 uint8_t  uint2uchar(uint16_t uival, bool getHighB);
 uint8_t ulong2uchar(uint32_t ulval, uint8_t getBytNr);
    // getBytNr: 0=LSB  3=MSB
 void delay(uint16_t MilliSec);
--- a/src/controlBus.cpp
+++ b/src/controlBus.cpp
@ -2,129 +2,107 @@
 #include <QString>
 #include <QDebug>
 #include "tslib.h"
 #include "shared_mem_buffer.h"
 //#include "controlBus.h"
 // ///////////////////////////////////////////////////////////////////////////////////
 //          control serial interface   gui <--> serial
 // ///////////////////////////////////////////////////////////////////////////////////
-static QString    rs_comportName;   // z.B. "COM48"
+//static QString    rs_comportName;   // z.B. "COM48"
-static QString    rs_baudStr;       // z.B. "19200"
+//static QString    rs_baudStr;       // z.B. "19200"
-static int        rs_baudNr;        //0...5 oder -1
+//static int        rs_baudNr;        //0...5 oder -1
-static uint8_t    rs_connect;       // 0,1
+//static uint8_t    rs_connect;       // 0,1
-void epi_setSerial(int BaudNr, QString BaudStr, QString ComName, uint8_t connect)
+void epi_setSerial(int BaudNr,
-{
+                   QString BaudStr,
-//    qDebug() << "ENTER" << BaudNr << BaudStr << ComName << connect;
+                   QString ComName,
                   uint8_t connect) {
    memset(&SharedMemBuffer::getData()->rs.comportName[0], 0x00,
           sizeof(SharedMemBuffer::getData()->rs.comportName));
    strncpy(SharedMemBuffer::getData()->rs.comportName,
            ComName.toStdString().c_str(),
            sizeof(SharedMemBuffer::getData()->rs.comportName)-1);
-    rs_comportName = ComName;
+    memset(&SharedMemBuffer::getData()->rs.baudStr[0], 0x00,
-    rs_baudStr     = BaudStr;
+           sizeof(SharedMemBuffer::getData()->rs.baudStr));
-    rs_baudNr      = BaudNr;    // 0=1200  1=9600  2=19200  3=38400  4=57600  5=115200  oder -1
+    strncpy(SharedMemBuffer::getData()->rs.baudStr,
-    rs_connect     = connect;     // 0/1
+            BaudStr.toStdString().c_str(),
            sizeof(SharedMemBuffer::getData()->rs.baudStr)-1);
-//    qDebug() << "LEAVE" << rs_baudNr << rs_baudStr << rs_comportName << rs_connect;
+    SharedMemBuffer::getData()->rs.baudNr = BaudNr;
    SharedMemBuffer::getData()->rs.connect = connect;
 }
-void epi_closeSerial(void)
+void epi_closeSerial(void) {
-{
+    SharedMemBuffer::getData()->rs.connect = 0;
    rs_connect=0;
 //    qDebug() << "ENTER/LEAVE rc_connect=0";
 }
-void gpi_serialChanged(void)
+void gpi_serialChanged(void) {
 {
    // serial confirms that port was closed or opened
-    rs_connect=2;   // Flanke, nur 1x öffnen/schließen
+    // rs_connect=2;   // Flanke, nur 1x öffnen/schließen
-    //qDebug() << "ENTER/LEAVE rc_connect=2";
+    SharedMemBuffer::getData()->rs.connect = 2;
 }
-uint8_t gpi_getSerialConn(void)
+uint8_t gpi_getSerialConn(void) {
-{
+    return SharedMemBuffer::getDataConst()->rs.connect;
    return rs_connect;
 }
-int gpi_getBaudNr(void)
+int gpi_getBaudNr(void) {
-{
+    return SharedMemBuffer::getDataConst()->rs.baudNr;
    return rs_baudNr;
 }
-QString gpi_getComPortName(void)
+QString gpi_getComPortName(void) {
-{
+    return SharedMemBuffer::getDataConst()->rs.comportName;
    return rs_comportName;
 }
-static bool rs_portIsOpen;
+void gpi_serialIsOpen(bool offen) {
-
+    SharedMemBuffer::getData()->rs.portIsOpen = offen;
 void gpi_serialIsOpen(bool offen)
 {
    //qDebug() << "ENTER/LEAVE offen=" << offen;
    rs_portIsOpen=offen;
 }
-bool epi_isSerialPortOpen()
+bool epi_isSerialPortOpen() {
 {
    // true: port is open   false: port is closed
-    //qDebug() << "ENTER/LEAVE offen=" << rs_portIsOpen;
+    return SharedMemBuffer::getDataConst()->rs.portIsOpen;
    return rs_portIsOpen;
 }
 // ///////////////////////////////////////////////////////////////////////////////////
 //          Control transfer   gui <--> serial
 // ///////////////////////////////////////////////////////////////////////////////////
-
+void epi_startEmmision(char start) {
-static char       AutoEmissionOn;     // 1: zyklisch Anfragen zum Slave senden
+    SharedMemBuffer::getData()->AutoEmissionOn = start;
 void epi_startEmmision(char start)
 {
    AutoEmissionOn=start;
 }
-bool gpi_isEmmisionOn(void)
+bool gpi_isEmmisionOn(void) {
-{
+    return SharedMemBuffer::getDataConst()->AutoEmissionOn;
    return AutoEmissionOn;
 }
-//-----------------------------------------------------
+uint16_t gpi_getPeriodicSendTimeVal() {
-
+    SharedMemBuffer::getData()->datif.sendingPer_changed = 0;
-static uint16_t datif_sendingPeriod;
+    if ((SharedMemBuffer::getDataConst()->datif.sendingPeriod < 3) ||
-static bool     datif_sendingPer_changed;
+        (SharedMemBuffer::getDataConst()->datif.sendingPeriod > 10000)) {
 uint16_t gpi_getPeriodicSendTimeVal()
 {
    datif_sendingPer_changed=0;
    if (datif_sendingPeriod<3 || datif_sendingPeriod>10000)
        return 130;         // ms, default
-    else
+    }
-        return datif_sendingPeriod;
+    return SharedMemBuffer::getDataConst()->datif.sendingPeriod;
 }
-void epi_setPeriodicSendTimeVal(uint16_t val)
+void epi_setPeriodicSendTimeVal(uint16_t val) {
-{
+    if (val>=3 && val<10000) {
-    if (val>=3 && val<10000)
+        SharedMemBuffer::getData()->datif.sendingPer_changed = 1;
-    {
+        SharedMemBuffer::getData()->datif.sendingPeriod = val;
        datif_sendingPer_changed=1;
        datif_sendingPeriod=val;
    }
 }
-bool gpi_PeriodicSendTimeHasChanged()
+bool gpi_PeriodicSendTimeHasChanged() {
-{
+    return SharedMemBuffer::getDataConst()->datif.sendingPer_changed;
    return datif_sendingPer_changed;
 }
 //-----------------------------------------------------
 //-----------------------------------------------------
 // ///////////////////////////////////////////////////////////////////////////////////
 //          Status Display    gui <--> serial
 // ///////////////////////////////////////////////////////////////////////////////////
 //              linke Spalte, über Connect Button
 static QString txt4comStateLine;
--- a/src/datIf.cpp
+++ b/src/datIf.cpp
@ -863,6 +863,11 @@ char T_datif::loadRecDataFromFrame()
    //int portNr;
    bool ret;
    uint8_t uctmp;      // maxai
    char ctmp;
    static uint8_t lastResult;
    uint8_t prnResult;
    static uint32_t lastInsertedAmount;
    uint32_t newInsertedAmount;
    ret=myDCIF->getReceivedInData(&SlaveAdr, &readSource, &readAddress,  &RdDleng, receivedData);
        // retval: data valid, only one time true, true if CommandState OK and readState OK
@ -902,7 +907,8 @@ char T_datif::loadRecDataFromFrame()
    for (int ii=0; ii<RdDleng; ii++)
    {
-        localStr.append(receivedData[ii]);
+        ctmp=receivedData[ii];
        localStr.append(ctmp);
    }
    //qDebug() << "got HW version: " << localStr;
@ -936,7 +942,7 @@ char T_datif::loadRecDataFromFrame()
        case CMD2DC_RdBkDCstate:                            //101
            //qDebug() << "got DC state " << localStr;
-            localStr[8]=0;
+            //localStr[8]=0;
            gpi_storeGenerals(2, localStr);
                // 0=HW   1=SW  2=State
            break;
@ -1112,7 +1118,9 @@ char T_datif::loadRecDataFromFrame()
    case CMD2DC_RdBk_MifState:          //109
        // get reader status and card type
-        gpi_storeMifReaderStateAndCardType(receivedData);
+        //gpi_storeMifReaderStateAndCardType(receivedData);
        gpi_storeNewMifareCard(receivedData[0], &receivedData[1]);
        break;
    case CMD2DC_RdBk_MifData:           //24
@ -1216,7 +1224,7 @@ char T_datif::loadRecDataFromFrame()
-// ab hier neu:    XXX
+// ab hier neu:    12.4.23
    case CMD2DC_RDBK_DEV_PARA:      //14
 /*
@ -1350,10 +1358,16 @@ char T_datif::loadRecDataFromFrame()
    case 112:       // get inserted amount in cent in sum
        // byte 0..3: amount just paid   4,5:last coin type  6,7: last coin value
-        ultmp=uchar2ulong(receivedData[3],receivedData[2],receivedData[1],receivedData[0]);
+        newInsertedAmount=uchar2ulong(receivedData[3],receivedData[2],receivedData[1],receivedData[0]);
        uitmp=uchar2uint(receivedData[5],receivedData[4]);
        uit2=uchar2uint(receivedData[7],receivedData[6]);
-        gpi_storeCurrentPayment(ultmp, uitmp, uit2);
+        gpi_storeCurrentPayment(newInsertedAmount, uitmp, uit2);
        if (newInsertedAmount != lastInsertedAmount)
        {
            emit datif_gotNewCoin();
            lastInsertedAmount=newInsertedAmount;
        }
        break;
    case 113:       // get wake source, 8byte
@ -1465,17 +1479,35 @@ char T_datif::loadRecDataFromFrame()
 */
        gpi_storeDynMachineConditions(RdDleng, receivedData);
        prnResult=receivedData[52];
        if (prnResult != lastResult)
        {
            // new result
            if (prnResult==1)
            {
                emit datif_templatePrintFinished_OK();
            } else
            if (prnResult==2)
            {
                emit datif_templatePrintFinished_Err();
            }
            lastResult=prnResult;
        }
        break;
    case 32:        // Get current cash level (in vault)
                    // bytes 0..3: amount   bytes 4,5=Nr.ofCoins in vault
-
+        ultmp=uchar2ulong(receivedData[3],receivedData[2],receivedData[1],receivedData[0]);
        uitmp=uchar2uint(receivedData[5],receivedData[4]);
        gpi_storeCBlevel(ultmp, uitmp);
        break;
    case 33:        // Get all backuped acc. Numbers
                    // 8 UINTs with acc-nr
-
+        gpi_storeDCbackupAccNr(RdDleng, receivedData);
        break;
    case 38:        // Get stored account record backup
@ -1541,7 +1573,8 @@ struct T_vaultRecord
    UCHAR endofblock[4];	// end>
 // 316 byte Block im Speicher
 */
-
+        // readAddress,  &RdDleng, receivedData
        gpi_storeVaultRecord(readAddress, receivedData );   // always 64byte
        break;
    }
@ -1644,11 +1677,15 @@ bool T_datif::verifyLineTestresponse(uint8_t RdDlen, uint8_t *receivedData)
    if (RdDlen < 16)
        return false;
    QString myStr;
    char ctmp;
    myStr.clear();
    myStr.append("< Slave Response");
    for (int nn=0; nn<16; nn++)
-        if (myStr[nn] !=receivedData[nn])
+    {
        ctmp=receivedData[nn];
        if (myStr[nn] != ctmp)
        {
            //qDebug() << " datif cmd 10: got wrong string ";
            //qDebug() << myStr;
@ -1656,6 +1693,7 @@ bool T_datif::verifyLineTestresponse(uint8_t RdDlen, uint8_t *receivedData)
            //qDebug() << nn;
            return false;
        }
    }
    return true;
 }
--- a/src/hwapi.cpp
+++ b/src/hwapi.cpp
@ -21,29 +21,65 @@
 #include "controlBus.h"
 #include "storeINdata.h"
 #include "dcBL.h"
 #include "shared_mem_buffer.h"
 #include <QDebug>
-#include <../plugins/interfaces.h>
+#include <QSharedMemory>
 #include "interfaces.h"
 static uint32_t hwapi_lastStartAmount;
 static const QMap<QString, int> baudrateMap = {
  {"1200"   ,   0}, {"9600"   ,   1}, {"19200"  ,   2}, {"38400"  ,   3},
  {"57600"  ,   4}, {"115200" ,   5}
 };
-hwapi::hwapi(QWidget *parent) : QObject(parent)
+hwapi::hwapi(QWidget *parent) : QObject(parent) {
-{
+    // create or attach shared memory segment
-    // constructor
+    // !!! The compoment creating the shared memory MUST be ATBQT !!!
-    //epi_resetAllDOs();
+    m_sharedMem = SharedMemBuffer::getShm(sizeof(SharedMemBuffer));
-    //PI_INI();
+    if (m_sharedMem) {
        if (m_sharedMem->isAttached()) {
            qInfo() << "Shared memory ("
                    << sizeof(SharedMemBuffer) << "bytes) created and attached";
        }
    } else {
        qCritical() << "Creating/attaching shared memory failed";
    }
    sendWRcmd_INI();
    myDatif = new T_datif();
    connect(myDatif, SIGNAL(datif_templatePrintFinished_OK()), this, SLOT(hwapi_slotPrintFinished_OK()));
    connect(myDatif, SIGNAL(datif_templatePrintFinished_Err()), this, SLOT(hwapi_slotPrintFinished_Err()));
    connect(myDatif, SIGNAL(datif_gotNewCoin()), this, SLOT(hwapi_slotGotCoin()));
 }
 hwapi::~hwapi() {
    if (m_sharedMem && m_sharedMem->isAttached()) {
        m_sharedMem->detach();
    }
 }
 void hwapi::hwapi_slotPrintFinished_OK(void) {
    emit hwapi_templatePrintFinished_OK();
 }
-void hwapi::sub_storeSendingText(QByteArray *buf) const
+void hwapi::hwapi_slotPrintFinished_Err(void) {
-{
+    emit hwapi_templatePrintFinished_Err();
 }
 void hwapi::hwapi_slotGotCoin(void) {
    // new coin was inserted while transaction and new amount reported:
    emit hwapi_gotNewCoin();
    uint32_t newSum=epi_CurrentPaymentGetAmount();
    if (newSum>=hwapi_lastStartAmount)
        emit hwapi_vendStopByMax();
 }
 void hwapi::sub_storeSendingText(QByteArray *buf) const {
    char local[70], copie[1350];    // 64byte more then max buffer size!
    int LL, nn, len, maxruns=20;
@ -739,13 +775,16 @@ QString hwapi::rtc_getTimStr() const
 {
    uint8_t hh,  mm,  ss, buf[20], nn;
    QString qbuf;
-
+    char ctmp;
    qbuf.clear();
    for (nn=0; nn<20; nn++) buf[nn]=0;
    epi_getTime(&hh, &mm, &ss);
    GetTimeString(hh, mm, ss, HourSys24h, MITSEK, buf); // about 12byte long
-    for (nn=0; nn<20; nn++) qbuf[nn]=buf[nn];
+    for (nn=0; nn<20; nn++)
-
+    {
        ctmp=buf[nn];
        qbuf[nn]=ctmp;
    }
    return qbuf;
 }
@ -753,14 +792,17 @@ QString hwapi::rtc_getDatStr() const
 {
    uint8_t day,  month,  year, buf[20], nn;
    QString qbuf;
    char ctmp;
    qbuf.clear();
    for (nn=0; nn<20; nn++) buf[nn]=0;
    epi_getDate(&year, &month, &day);
    GetDateString(day, month, 0x20, year, DateFormatDeutsch, 0, buf);
    for (nn=0; nn<20; nn++)
-        qbuf[nn]=buf[nn];
+    {
-
+        ctmp=  buf[nn];
        qbuf[nn]=ctmp;
    }
    return qbuf;
 }
@ -2221,7 +2263,8 @@ bool hwapi::pri_TD_addText(QByteArray text) const
 bool hwapi::pri_TD_addValue(int val) const
 {
-    QString  tmpStr;
+//    QString  tmpStr;
    QByteArray  tmpStr;
    tmpStr.setNum(val,10);      // up to 12 chars
    if (ticketTemplate.length()>1266)
        return false;
@ -3071,7 +3114,7 @@ bool hwapi::bl_isUp(void) const
 }
-void hwapi::bl_sendAddress(u_int16_t blockNumber) const
+void hwapi::bl_sendAddress(uint16_t blockNumber) const
 {
    // send start address, nr of 64byte-block, start with 0
    // will be sent only for folling block-numbers:
@ -3106,7 +3149,7 @@ void hwapi::bl_openBinary(void) const
    dcBL_loadBinary(0);
 }
-void hwapi::bl_sendDataBlock(uint8_t length, u_int8_t *buffer) const
+void hwapi::bl_sendDataBlock(uint8_t length, uint8_t *buffer) const
 {
    // send 64 byte from bin file
    uint8_t LL=length, sendBuf[80], sendLen;
@ -3137,6 +3180,7 @@ void hwapi::bl_sendLastBlock(void) const
    len=dcBL_writeLastPage(buf);
    sendWRcmd_setSendBlock160(len, buf);
 }
 uint8_t hwapi::bl_wasSendingDataOK(void) const
@ -3309,6 +3353,60 @@ bool hwapi::rtc_getExtendedTime(uint8_t *leng, uint8_t *data) const
 }
 bool hwapi::rtc_getExtendedTime(struct T_extTime *exTime) const
 {
    uint8_t len;
    uint16_t LL, nn;
    uint8_t *start;
    uint8_t  buf[66];
    epi_restoreExtendedTime(&len, buf);
        // Puffer in struct eintragen:
    LL=sizeof(struct T_extTime);
    start = &(exTime->Hours);
    nn=0;
    do
    {
        *start = buf[nn];
        start++;
    } while(++nn<LL);
    return true;
 /*
 struct T_extTime
 {
    uint8_t     Hours;
    uint8_t     Min;
    uint8_t     Sec;
    uint8_t     Year;
    uint8_t     Month;
    uint8_t     Day;
    uint8_t     DOW;
    uint8_t     res1;
    uint16_t    MinOfDay;
    uint16_t    res2;
    uint32_t    SecOfDay;
    uint8_t     isLeapYear;
    uint8_t     nxtLeapYear;
    uint8_t     lastLeapYear;
    uint8_t     hoursOfThisWeek;
    uint16_t    minutesOfThisWeek;
    uint16_t    hoursOfThisMonth;
    uint16_t    daysOfThisYear;
    uint16_t    GetHoursOfYear;
    uint16_t    res3;
    uint32_t    GetMinutesOfYear;
    uint8_t     getWakeIntvSec;
    uint8_t     res4;
    uint16_t    res5;
    uint32_t    MinutesOfMillenium;
 };
 */
 }
 bool hwapi::sys_runCompleteTest(void) const
 {
    // warning: lasts 20s in one pace
@ -3320,9 +3418,8 @@ bool hwapi::sys_ready4sending(void) const
    // return true if a Json-file can be sent
    // check free memory
-    uint8_t frei=FDLONG_STACKDEPTH - check4FDlongCmd();
+    uint8_t frei=check4freeFDlongCmd();
        // Command-Stack sollte 16 Commands fassen, je 64byte Nutzdaten = 1024byte
        // in check4FDlongCmd() steht wieviele Plaetze bereits belegt sind
        // frei gibt also die Anzahl freier 64byte Bloecke zurueck
        // das Json-File hat max 800 byte = 13 bloecke
    if (frei<16)        // Puffer muss ganz leer sein! nicht dass was durcheinander kommt
@ -3357,9 +3454,8 @@ bool hwapi::sys_sendJsonFileToDc(uint8_t kindOfFile, uint8_t nrOfTemplate, uint8
    dateiLang<<=6;  // auf volle 64byte aufgerundet
    // check free memory
-    frei=FDLONG_STACKDEPTH - check4FDlongCmd();
+    frei=check4freeFDlongCmd();
        // Command-Stack sollte 16 Commands fassen, je 64byte Nutzdaten = 1024byte
        // in check4FDlongCmd() steht wieviele Plaetze bereits belegt sind
        // frei gibt also die Anzahl freier 64byte Bloecke zurueck
        // das Json-File hat max 800 byte = 13 bloecke
    if (frei<16)        // Puffer muss ganz leer sein! nicht dass was durcheinander kommt
@ -3380,8 +3476,8 @@ bool hwapi::sys_sendJsonFileToDc(uint8_t kindOfFile, uint8_t nrOfTemplate, uint8
    {
        biox_CopyBlock(inhaltOfJson, uitmp, temp, 0, 64);
        longFDcmd_set(31,0, bn++, 64, temp);
-        uitmp += 64;
+        //uitmp<<=6;  // falsch
-        // uitmp<<=6;
+        uitmp+=64;
    } while(uitmp < dateiLang);
    longFDcmd_set(32, 0,0, 0,temp);       // Abschluss
@ -3412,11 +3508,12 @@ bool hwapi::prn_printTemplate(uint8_t nrOftemplate) const
    return sendFDcmd_set(152, 0,0, nrOftemplate,0,0,0);
 }
-void hwapi::log_getHoldAccountNumbers(uint32_t *accNr ) const
+void hwapi::log_getHoldAccountNumbers(uint8_t *nrOfVals, uint16_t *accNr ) const
    // returns all acc nrs of the backuped vault records
    // use: uint32_t backupedAccNumbers[8]
 {
-    Q_UNUSED(accNr);
+    // returns all acc nrs of the backuped vault records
    // use: uint16_t backupedAccNumbers[8]
    epi_restoreDCbackupAccNr(nrOfVals, accNr);
 }
@ -3424,21 +3521,62 @@ void hwapi::log_getHoldAccountNumbers(uint32_t *accNr ) const
 bool hwapi::log_selectVaultRecord(uint16_t accountNr ) const
 {
    // return true if sending, false if cmd-stack is full
-    uint8_t dat1, dat2;
+    // and trigger transfer
    uint8_t dat1, dat2;
    bool ret;
    uint8_t frei=check4freeFDshortCmd();
    if (frei<8)
        return false;
    epi_iniVRstorage();
    dat1=uint2uchar(accountNr, LOWBYTE);
    dat2=uint2uchar(accountNr, HIGHBYTE);
-    return sendFDcmd_set(153, 0,0, dat1,dat2,0,0);
+    ret=sendFDcmd_set(153, 0,0, dat1,dat2,0,0); // select this record
        // true means "will be sent"
    sendFDcmd_set(0,38,0, 0,0,0,0);    // return VaultRecord block-Nr.0
    sendFDcmd_set(0,38,1, 0,0,0,0);    // return VaultRecord block-Nr.1
    sendFDcmd_set(0,38,2, 0,0,0,0);    // return VaultRecord block-Nr.2
    sendFDcmd_set(0,38,3, 0,0,0,0);    // return VaultRecord block-Nr.3
    sendFDcmd_set(0,38,4, 0,0,0,0);    // return VaultRecord block-Nr.4
    sendFDcmd_set(0,38,5, 0,0,0,0);    // return VaultRecord block-Nr.4
        // 38: <100 to get long 64byte response
    return ret;
 }
 bool hwapi::log_chkIfVaultRecordAvailable(void) const
 {
    // return true if completly received
    return epi_checkIfVaultRecordAvailable();
        return false;
 }
-//request, isAvailable
+bool hwapi::log_getVaultRecord(struct T_vaultRecord *retVR) const
 void hwapi::log_getVaultRecord(struct T_vaultRecord *retVR) const
    // which was selected by: log_selectVaultRecord()
    // to be forwarded to Ismas
    // return true if completly received
 {
-    Q_UNUSED(retVR);
+
    uint16_t LL, nn, len;
    char   *start;
    uint8_t  buf[400];
    bool ret;
    ret=epi_restoreVaultRecord(&len, buf);   // true if completly received
    if (ret==false)
        return false;
        // Puffer in struct eintragen:
    LL=sizeof(struct T_vaultRecord);		// =320
    start = &retVR->startbuffer[0];
    nn=0;
    do
    {
        *start = buf[nn];
        start++;
    } while(++nn<LL);
    return true;
 }
 bool hwapi::prn_printAccountReceipt(void) const
@ -3453,14 +3591,19 @@ bool hwapi::prn_printTestTicket(void) const
 }
-bool hwapi::cash_startPayment(uint16_t amount) const
+bool hwapi::cash_startPayment(uint32_t amount) const
 {
-    uint8_t dat1, dat2;
+    // 17.4.23TS: extended to 32bit
    uint8_t dat1, dat2, dat3, dat4;
    hwapi_lastStartAmount=amount;
    epi_clearCurrentPayment();
-    dat1=uint2uchar(amount, LOWBYTE);
+    dat1=ulong2uchar(amount, 0);
-    dat2=uint2uchar(amount, HIGHBYTE);
+    dat2=ulong2uchar(amount, 1);
-    return sendFDcmd_set(155, 0,0, dat1,dat2,0,0);
+    dat3=ulong2uchar(amount, 2);
    dat4=ulong2uchar(amount, 3);
    return sendFDcmd_set(155, 0,0, dat1,dat2,dat3,dat4);
 }
@ -3494,6 +3637,7 @@ bool hwapi::cash_stopPayment(void) const
 {
    // DB1: 1=encash    2=cancel & return coins
    //      3=stop and keep coins in escrow
    emit hwapi_vendStopByPushbutton();
    return sendFDcmd_set(156, 0,0, 3,0,0,0);
 }
@ -3516,17 +3660,24 @@ bool hwapi::vend_failed(void) const
 }
-
+uint8_t hwapi::mif_getCardType(QString *cardholder) const
 uint8_t hwapi::mif_getCardType(QString cardholder) const
    // return 1,2,3,4 = upper, lower access card, printer test, coin test
    // cardholder: 7byte Name-String
 {
-    Q_UNUSED(cardholder);
+    uint8_t type, buf[8], nn;
-    return 0; // to satisfy compiler
+    char ctmp;
    memset(buf, 0x00, sizeof(buf));
    type=epi_mifGetCardType(&buf[0]);
        //holder[8] = name of card holder
        // retval Type of MifareCard, 1=upper door, 2=lower door 3=test printer 4=test coins
    for (nn=0;nn<8; nn++) {
        ctmp=buf[nn];
        cardholder[nn]=ctmp;
    }
    return type;
 }
 uint64_t hwapi::sys_getWakeSource(void) const
@ -3535,17 +3686,138 @@ uint64_t hwapi::sys_getWakeSource(void) const
     return epi_getWakeSources();
 }
-//void hwapi::sys_getDeviceConditions(struct T_moduleCondition *devCond) const
+
 void hwapi::sys_getDeviceConditions(uint8_t *leng, uint8_t *data) const
 {
    //uint8_t leng, data[66];
    epi_restoreDeviceConditions(leng, data);
 }
-//void hwapi::sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const
+void hwapi::sys_getDeviceConditions(struct T_moduleCondition *devCond) const
 void hwapi::sys_getDynMachineConditions(uint8_t *leng, uint8_t *data) const
 {
-    epi_restoreDeviceConditions(leng, data);
+    uint16_t LL, nn;
    uint8_t *start;
    uint8_t  buf[70], leng;
    epi_restoreDeviceConditions(&leng, buf);
        // Puffer in struct eintragen:
    LL=sizeof(struct T_moduleCondition);
    start = &devCond->ram;
    nn=0;
    do
    {
        *start = buf[nn];
        start++;
    } while(++nn<LL);
 }
 void hwapi::sys_getDynMachineConditions(uint8_t *leng, uint8_t *data) const
 {
    epi_restoreDynMachineConditions(leng, data);
 }
 void hwapi::sys_getDynMachineConditions(struct T_dynamicCondition *dynMachCond) const
 {
    uint16_t LL, nn;
    char *start;
    uint8_t  buf[70], leng;
    epi_restoreDynMachineConditions(&leng, buf);
        // Puffer in struct eintragen:
    LL=sizeof(struct T_dynamicCondition);
    start = &dynMachCond->allDoorsDebounced;
    nn=0;
    do
    {
        *start = buf[nn];
        start++;
    } while(++nn<LL);
 }
 uint32_t hwapi::cash_getAmountInVault(void) const
 {
    return epi_getCashBoxContent();
 }
 uint16_t hwapi::cash_getNrCoinsInVault(void) const
 {
    return epi_getNrOfCoinsInCashBox();
 }
 uint8_t hwapi::prn_getPrintResult() const
 {
    // return:  0: unknown
    //          1: OK - last template was printed succesful
    //          2: error - last template was not printed
    struct T_dynamicCondition dynMachCon;
    //uint8_t  buf[70], leng,
    uint8_t res;
    static  uint8_t lastState;
    //uint32_t  aa;
   // aa=&dynMachCon;
    sys_getDynMachineConditions(&dynMachCon);
    res= dynMachCon.resultOfLastTemplPrint;
        // 0: unknown or printing in progress
        // 1: OK, doc was printed   2: error, doc was not printed
    if (res==0)
    {
        if (lastState>0)
        {
            // print was started
            lastState=res;
        }
    } else
    {
        if (lastState==0)
        {
            // result hat sich auf 1 oder 2 geändert, d.h. Druck ist fertig
            if (res==1)
            {
                //emit    hwapi_templatePrintFinished_OK();
            } else
            if (res==2)
            {
                //emit    hwapi_templatePrintFinished_Err();
            }
                lastState=res;
        }
    }
    return res;
 }
 uint8_t hwapi::prn_getCurrentPrinterState() const
 {
        //        0: printer OK
        //          bit0: near paper end          bit1: no paper
        //          bit2: temperature error       bit3: error head open
        //          bit4: paper jam in cutter
        //          bit6: no response             bit7: serial rec. error
        //			bit5: printer not ready
    uint8_t     lastPrinterStatus;
    uint8_t  buf[70], leng;
    // 2nd way to get dyn.conditions:
    epi_restoreDynMachineConditions(&leng, buf);
    lastPrinterStatus=buf[53];
    return lastPrinterStatus;
 }
--- a/src/sendWRcmd.cpp
+++ b/src/sendWRcmd.cpp
@ -563,11 +563,17 @@ bool sendFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, ui
 uint8_t check4FDshortCmd(void)
 {
-    // returns number of waiting command
+    // returns number of waiting command, max FDCMD_STACKDEPTH
    return p_nextFDcmdsInQueue;
 }
 uint8_t check4freeFDshortCmd(void)
 {
    // returns number of free places in short-command stack
    return FDCMD_STACKDEPTH - p_nextFDcmdsInQueue;
 }
 // long command, 64 data bytes
 static uint8_t longFDwrCmd[FDLONG_STACKDEPTH];
@ -602,7 +608,7 @@ bool longFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8
    uint8_t nn;
    if (p_longFDcmdsInQueue>=FDLONG_STACKDEPTH)
    {
-        qCritical() << "cannot save cmd because stack is full";
+        qDebug() << "cannot save cmd because stack is full";
        return false;           // not possible
    }
    longFDwrCmd[p_longFDcmdsInQueue]=nextWrCmd;
@ -613,7 +619,6 @@ bool longFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8
        longFDpara[p_longFDcmdsInQueue][nn]=data[nn];
    p_longFDcmdsInQueue++;
    return true;                // ok, will be sent
 }
@ -659,5 +664,10 @@ uint8_t check4FDlongCmd(void)
    return p_longFDcmdsInQueue;
 }
 uint8_t check4freeFDlongCmd(void)
 {
    // returns number of free places in command stack
    return FDLONG_STACKDEPTH - p_longFDcmdsInQueue;
 }
--- a/src/shared_mem_buffer.cpp
+++ b/src/shared_mem_buffer.cpp
@ -0,0 +1,39 @@
 #include "shared_mem_buffer.h"
 #include <QDebug>
 #include <atomic>
 #ifdef QT_POSIX_IPC
    // The POSIX backend can be explicitly selected using the -feature-ipc_posix
    // option to the Qt configure script. If it is enabled, the QT_POSIX_IPC
    // macro will be defined. -> we use SystemV shared memory
 #error "QT_POSIX_IPC defined"
 #else
 #include <sys/ipc.h>    // ftok
 #endif
 // std::atomic_bool SharedMemBuffer::__sharedMemLocked{false};
 QSharedMemory *SharedMemBuffer::getShm(std::size_t size) {
    static QSharedMemory shMem;
    if (size > 0) {
        static const long nativeKey = ftok("/etc/os-release", 'H');
        static const QString fkey = std::to_string(nativeKey).c_str();
        shMem.setKey(fkey);
        if (!shMem.isAttached()) {
            if (shMem.create(size)) {
                return &shMem;
            } else {
                if (shMem.error() == QSharedMemory::AlreadyExists) {
                    if (shMem.attach()) {
                        return &shMem;
                    }
                }
            }
            qCritical() << shMem.nativeKey() << shMem.key() << shMem.data()
                        << shMem.error() << shMem.errorString();
            return nullptr;
        }
    }
    return &shMem;
 }
--- a/src/storeINdata.cpp
+++ b/src/storeINdata.cpp
--- a/src/tslib.cpp
+++ b/src/tslib.cpp
@ -76,6 +76,23 @@ uint8_t uint2uchar(uint16_t uival, bool getHighB)
 }
 uint8_t ulong2uchar(uint32_t ulval, uint8_t getBytNr)
 {
    // getBytNr: 0=LSB  3=MSB
    uint32_t ultmp=ulval;
    if (getBytNr==0)
        return uint8_t(ultmp);
    ultmp>>=8;
    if (getBytNr==1)
        return uint8_t(ultmp);
    ultmp>>=8;
    if (getBytNr==2)
        return uint8_t(ultmp);
    ultmp>>=8;
    return uint8_t(ultmp);
 }
 void delay(uint16_t MilliSec)
 {
    QThread::msleep(uint32_t(MilliSec));