include/interfaces.h

@@ -377,23 +377,6 @@ struct T_changer
 
 struct T_bna
 {
-    // reported with STATUS:
-    uint8_t setup;			// 0: not  1: got valid parameters from device
-    uint8_t	FeatureLevel;
-    uint16_t countryCode;		// programmed in EMP
-    uint16_t scalingFactor;				// z.B. 5
-    uint8_t	decimalPlace;
-    uint8_t pad1;
-    uint16_t stackerCap;
-    uint16_t billSecureLevel;
-    uint8_t	hasEscrow;
-    uint8_t accBillTypes[16];             // programmed in EMP  z.B. (bit 0..7): 1 2 4 10 20 40 0 0
-    uint16_t currentStackerLevel;        // requested number of notes in billbox
-
-    // settings from Master
-    uint16_t intendedAccept;    // bit 0 =5€
-    uint16_t pad2;
-    uint16_t billDenomination[16];
 
 };
 
@@ -2232,7 +2215,6 @@ public:
         Q_UNUSED(notesToAccept);
     }
     // can be used to block notes dynamically, example: from now only 5€ bills are allowed (if only 3€ are to be paid)
-    // only valid till next start-payment. Cannot add notes which are not activated in Json
 
     virtual void bna_requestParameters() const {}
     // send command to DC in order to get static invariable device parameters like currency
@@ -2353,15 +2335,9 @@ signals:
 //#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/5.0"
     // 10.10.2023: added coin changer
 
-//#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/5.1"
+#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/5.1"
 // 20.10.2023: added bill validator
 
-// hier dazwischen: Umstellung ALLER Prototypen
-//  hier von =0 auf {} durch Gerhard
-
-#define HWINF_iid "Atb.Psa1256ptu5.software.HWapi/5.2"
-    // 7.11.2023: bna functions activated
-
 
 Q_DECLARE_INTERFACE(hwinf, HWINF_iid)
 

include/sendWRcmd.h

@@ -1,12 +1,185 @@
 
 #ifndef SENDWRCMDS_DEFS_H
 #define SENDWRCMDS_DEFS_H
-
-#include <stdint.h>
 #include "tslib.h"
 #include <QString>
 
+// asynch. Commands
+// store OUTPUT commands until time to send
+// problem: OUT commands are set if a button is pressed or a transaction event happens
+// so it's never synchron with sending grid
+// but sending must apply the 100ms time grid as we have to wait for the response before sending the next command!!!
 
+
+// aug2023: used with setSendCommand0
+//#define SENDDIRCMD_TestSerial           1
+//#define SENDDIRCMD_MakeReset            2
+//#define SENDDIRCMD_setTime              3
+//#define SENDDIRCMD_setWakeFrequ         4
+
+//#define SENDDIRCMD_MOVEUP_LOCK            5
+//#define SENDDIRCMD_MOVEDN_LOCK            6
+//#define SENDDIRCMD_OPENUP_DOOR            7
+//#define SENDDIRCMD_OPENDN_DOOR            8
+
+
+//#define SENDDIRCMD_LEDILLU              9
+//#define SENDDIRCMD_LEDCOIN              10
+//#define SENDDIRCMD_LEDTICKET            11
+//#define SENDDIRCMD_LEDPAD               12
+//#define SENDDIRCMD_LEDSTART             13
+//#define SENDDIRCMD_LEDINSIDE            14
+//#define SENDDIRCMD_LED_ALL              15
+//#define SENDDIRCMD_FAN                  16
+//#define SENDDIRCMD_LAERM                17
+//#define SENDDIRCMD_REL1                 18
+
+//#define SENDDIRCMD_WAKEPTU              20
+//#define SENDDIRCMD_AUXPWR               21
+//#define SENDDIRCMD_AUXDDR               22
+//#define SENDDIRCMD_AUXOUT               23
+
+
+//#define SENDDIRCMD_UCONTACT_ON          30
+//#define SENDDIRCMD_PRN2_SWONOFF         31
+
+//#define SENDDIRCMD_MIF_SWONOFF          32
+//#define SENDDIRCMD_MIF_ATBCREATE        33
+
+//#define SENDDIRCMD_MOD_SWONOFF          40
+//#define SENDDIRCMD_MOD_WAKE             41
+//#define SENDDIRCMD_MDB_POWER            42
+//#define SENDDIRCMD_MDB_WAKE             43
+//#define SENDDIRCMD_CRED_ON              44
+//#define SENDDIRCMD_CRED_WAKE            45
+
+//#define SENDDIRCMD_SHUT_MOV             50
+//#define SENDDIRCMD_ESCRO_MOV            51
+//#define SENDDIR_OPENVAULT               52
+//#define SENDDIR_REJMOT_ON               53
+//#define SENDDIR_REJMOT_RUN              54
+
+// Level 2 (serial from DC to devices)
+//#define SEND_REQU_SERCONF               100
+//#define SEND_REQU_HWversion             101
+//#define SEND_REQU_SWversion             102
+//#define SEND_REQU_CONDITION             103
+//#define SEND_REQU_UID                   104
+//#define SEND_REQU_TIME                  105
+    // includes wake frequency
+//#define SEND_REQU_ANALOGS               110
+//#define SEND_REQU_DIG_INPUTS            111
+//#define SEND_REQU_DIG_OUTPUTS           112
+
+//#define SEND_REQU_PRN_STATE             120
+//#define SEND_REQU_PRN_FONTS             121
+//#define SEND_REQU_PRN_ALL               122
+
+//#define SEND_REQU_MIFSTATE             123
+    // Type and state of reader
+
+//#define SEND_REQU_MIFDATA               124
+    // Type, UID, Header of card
+    // read one card sector
+    // sectors must be addressed by RD_ADD
+
+//#define SEND_REQU_MIF_ATB_TYPE          125
+
+//#define SEND_REQU_MDB_GETSTAT           126
+//#define SEND_REQU_MDB_GETWAK            127
+//#define SEND_REQU_MDB_GETRESP           128
+//#define SEND_REQU_EMP_GETALL            129
+//#define SEND_REQU_EMP_GETCOIN           130
+
+
+//#define SENDDIRCMD_DEVICE_PARA          131
+//#define SENDDIRCMD_MACHINE_ID           132
+//#define SEND_REQU_DEVICE_PARA           133
+//#define SEND_REQU_MACINE_ID             134
+
+
+
+
+
+// TODO:
+//#define SENDDIRCMD_PRN_SETUP            72
+//#define SENDDIRCMD_MDB_SNDMSG           92
+//#define SENDDIRCMD_EMP_SETT             93
+//#define SENDDIRCMD_PRN_BC               80
+
+
+
+// further: mdb state, coinchecker state, bill state, modem state, credit_state....
+/*
+#define SENDDIRCMD_SHUTOPENBYTIME       60
+#define SENDDIRCMD_SHUTOPENBYCOIN       61
+//#define SENDDIRCMD_SHUT_SENDTIME        62
+
+#define SENDDIRCMD_ESCRO_TAKE           63
+#define SENDDIRCMD_ESCRO_GIVE           64
+
+#define SENDDIRCMD_PRN_SYS_CMD          70
+#define SENDDIRCMD_PRN_ESC_CMD          71
+#define SENDDIRCMD_PRN_MOVE             73
+#define SENDDIRCMD_PRN_SETFONT          74
+#define SENDDIRCMD_PRN_SETLETT          75
+#define SENDDIRCMD_PRN_CUT              76
+//#define SENDDIRCMD_PRN_TXT              // not needed
+#define SENDDIRCMD_PRN_LF               78
+#define SENDDIRCMD_PRN_FONTTAB          79
+#define SENDDIRCMD_PRN_QR               81
+#define SENDDIRCMD_PRN_STOREDQR         82
+#define SENDDIRCMD_PRN_LOGO_FL          83
+//#define SENDDIRCMD_PRN_LOGO_GRAF        84
+//#define SENDDIRCMD_PRN_LOGODAT          85
+//#define SENDDIRCMD_PRN_STORBC           86
+#define SENDDIRCMD_PRN_STORQR           87
+#define SENDDIRCMD_PRN_DOC              88
+#define SENDDIRCMD_PRN_CLEARDOC         89
+
+//#define SENDDIRCMD_MDB_POWER            42
+//#define SENDDIRCMD_MDB_WAKE             43
+#define SENDDIRCMD_MDB_RES              90
+#define SENDDIRCMD_MDB_SENDCMD          91
+#define SENDDIRCMD_EMP_POLL             94
+#define SENDDIRCMD_EMP_STARPPAY         95
+#define SENDDIRCMD_EMP_STOPPAY          96
+*/
+
+
+
+// obsolete:
+/*
+#define SENDDIRCMD_PRN1_SENDTEXT        54
+#define SENDDIRCMD_PRN1_SENDCMD         55
+#define SENDDIRCMD_PRN1_SERPAR          56
+#define SENDDIRCMD_PRN_LEVEL2_4B        58
+#define SENDDIRCMD_PRN_LEVEL2_64        59
+*/
+
+// highest priority
+//#define CMDSTACKDEPTH   16
+// means: up to 16 cmd can be stored. They are issued one by one every 100ms
+//void sendWRcmd_clrCmdStack(void);
+//bool sendWRcmd_setSendCommand0(uint16_t nextCmd);
+    // GUI or app sends a command to DC transfered by serial
+
+//uint16_t sendWRcmd_getSendCommand0(void);
+
+// lower priority
+//#define CMD4STACKDEPTH   8
+//void sendWRcmd_clrCmd4Stack(void);
+//bool sendWRcmd_setSendCommand4(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint8_t dat3, uint8_t dat4);
+//uint16_t sendWRcmd_getSendCommand4(uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4);
+
+//#define CMD8STACKDEPTH   4
+//void sendWRcmd_clrCmd8Stack(void);
+//bool sendWRcmd_setSendCommand8(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint16_t dat3, uint32_t dat4);
+//uint16_t sendWRcmd_getSendCommand8(uint8_t *dat1, uint8_t *dat2, uint16_t *dat3, uint32_t *dat4);
+
+
+
+// lowest priority
 // wait for resonse before send next!
 bool sendWRcmd_setSendBlock160(uint8_t leng, uint8_t *buf);
 uint8_t sendWRcmd_getSendBlock160(uint8_t *leng, uint8_t *buf);
@@ -14,6 +187,47 @@ uint8_t sendWRcmd_getSendBlock160(uint8_t *leng, uint8_t *buf);
 
 void sendWRcmd_INI(void);
 
+
+
+//uint8_t epi_store64ByteSendData(uint8_t length, uint8_t *buf);
+    // HWapi writes data to be forwarded to DC and further to mdb-device
+    // not batched! don't use twice within 100ms
+
+//uint8_t gpi_restore64ByteSendData(uint8_t *length, uint8_t *buf);
+    // datif reads data to forward to dc
+
+
+
+// ONE printer doc consists of 20 x 64 byte
+//#define MAXNROF_PRNBYTES   64
+//#define MAXNROF_PRNBLOCKS  20
+/*
+void epi_resetPrinterStack(void);
+
+uint8_t epi_storePrnText(char *buf, uint8_t leng);
+    // store text and binary data from Gui in next higher free memory 0....9
+
+uint8_t gpi_restorePrnText(uint8_t *retbuf);
+    // read printer text and send to slave, size of retbuf== 64
+
+uint8_t gpi_chk4remainingText(void);
+    // retval: 0: no more textline left (to send)  >0: nr of lines
+*/
+
+
+//void epi_storeUserOfSendingTextBuffer(uint8_t user, uint8_t para1, uint8_t para2, uint8_t para3, uint8_t para4 );
+    // user=1: Text-Print is using this buffer
+    //      2: QR-code-Printer is using this buffer
+
+//uint8_t gpi_getUserOfSendingTextBuffer(uint8_t *para1, uint8_t *para2, uint8_t *para3, uint8_t *para4);
+    // user=1: Text-Print is using this buffer
+    //      2: QR-code-Printer is using this buffer
+
+
+
+
+
+
 // #define     FDCMD_STACKDEPTH    16 / 32
 // short and long commands are queued into the same stack to guaranty right order
 void sendFDcmd_clrStack(void);

include/shared_mem_buffer.h

@@ -226,13 +226,6 @@ struct SharedMem
     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;

include/storeINdata.h

@@ -1,8 +1,6 @@
 
 #ifndef STOREINDATA_H
 #define STOREINDATA_H
-
-#include <stdint.h>
 #include "tslib.h"
 #include <QString>
 
@@ -609,27 +607,6 @@ void gpi_storeTubeLevel(uint8_t  *data);
 
 void epi_restoreTubeLevel(uint8_t  *data);
 
-void gpi_storeBnaParams(uint8_t  *data);
-
-void epi_restoreBnaParams(uint8_t  *data);
-
-void gpi_storeBnaCollection(uint8_t  *data);
-
-void epi_restoreBnaCollection(uint8_t  *data);
-
-void gpi_storeBnaContent(uint8_t  *data);
-
-void epi_restoreBnaContent(uint8_t  *data);
-
-
-
-
-
-
-
-
-
-
 
 #endif
 

src/datIf.cpp

@@ -1060,7 +1060,7 @@ char T_datif::loadRecDataFromFrame()
             gpi_storeVaultRecord(readAddress, receivedData );   // always/max 64byte
             /*
             qDebug()<<"datif cmd38 got vault data. blockNr: "<<readAddress;
-            if (readAddress==0)
+            if (readAddress==5)
             for (nn=0; nn<64; nn+=8)
             {
                 qDebug()<<receivedData[nn]<<" "<<receivedData[nn+1]<<" "<<receivedData[nn+2]<<" "<<receivedData[nn+3]<<" "
@@ -1085,35 +1085,17 @@ char T_datif::loadRecDataFromFrame()
         }
         break;
 
-    case 41:        // get BNA parameters
-        if (RdDleng>50)
-        {
-            gpi_storeBnaParams(receivedData);
-        }
-        break;
+
+
+
+
+
 
     case 21:    // readback version strings of all Json-File in DC
                 //
         gpi_storeJsonVersion(readAddress, receivedData);
         break;
 
-    case 116:        // get BNA current collection
-        if (RdDleng>7)
-        {
-            gpi_storeBnaCollection(receivedData);
-        }
-        break;
-
-    case 42:        // get BNA box content and value of types
-//        qDebug()<<  "CAmaster datif_got 42 ";
-//        for (uctmp=0; uctmp<64; uctmp++)
-//            qDebug()<<receivedData[uctmp]<<" ";
-
-        if (RdDleng>60)
-        {
-            gpi_storeBnaContent(receivedData);
-        }
-        break;
 
     }
     readSource=0;   // 17.05.2023: to avoid multiple recording

src/hwapi.cpp

@@ -501,8 +501,6 @@ uint8_t hwapi::rtc_setDateTime(void) const
 }
 
 
-
-
 void hwapi::rtc_getTime(uint8_t *hh, uint8_t *mm, uint8_t *ss) const
 {
     epi_getTime(hh, mm, ss);
@@ -2970,7 +2968,7 @@ bool hwapi::log_getVaultRecord(struct T_vaultRecord *retVR) const
 
     // 14.9.23 neu: Datensatz erst pruefen, [0..3] enthaelt "Psa>" und [4,5 =Abr.Nr]
     uint16_t ds_acc_nr=uchar2uint(buf[5], buf[4]);
-    if (buf[0]=='P' && buf[1]=='s' && buf[2]=='a' && buf[3]=='>' && ds_acc_nr<60000)
+    if (buf[0]=='P' && buf[1]=='S' && buf[2]=='A' && buf[3]=='>' && ds_acc_nr<60000)
     {
         // valid data, copy data to struct
         do
@@ -4178,55 +4176,22 @@ void hwapi::bna_sendSettings(uint16_t notesToAccept, uint16_t parameters,
 // acceptanceLimit: device will stop acceptance once this amount is reached and
 //          optionally keep last bill in escrow until vend_success()
 //          is called (put bill to stacker) or vend_failed() is called (return bill)
-
-    uint16_t noteAcc=notesToAccept;
-    uint16_t para=parameters;
-    uint16_t denom[16];
-    uint32_t limit=acceptanceLimit;
-    uint8_t buf[64], nn, pp;
-
-    for (nn=0; nn<16; nn++)
-       denom[nn]=billDenomination[nn];
-
-
-    buf[0]=uint2uchar(noteAcc, LOWBYTE);
-    buf[1]=uint2uchar(noteAcc, HIGHBYTE);
-    buf[2]=uint2uchar(para, LOWBYTE);
-    buf[3]=uint2uchar(para, HIGHBYTE);
-    pp=4;
-    for (nn=0; nn<16; nn++)
-    {
-       buf[pp++]=uint2uchar(denom[nn], LOWBYTE);
-       buf[pp++]=uint2uchar(denom[nn], HIGHBYTE);
-    }
-
-    buf[pp++]=ulong2uchar(limit, 0);
-    buf[pp++]=ulong2uchar(limit, 1);
-    buf[pp++]=ulong2uchar(limit, 2);
-    buf[pp++]=ulong2uchar(limit, 3);
-
-    longFDcmd_set(35, 41, 0, pp, buf);
-
+    Q_UNUSED(notesToAccept);
+    Q_UNUSED(parameters);
+    Q_UNUSED(billDenomination);
+    Q_UNUSED(acceptanceLimit);
 }
 
 void hwapi::bna_setCurrentAcceptance(uint16_t notesToAccept) const
 {
     // can be used to block notes dynamically, example: from now only 5€ bills are allowed (if only 3€ are to be paid)
-    uint8_t LB, HB;
-    uint16_t  val=notesToAccept;
-
-    LB=uint2uchar(val, LOWBYTE);
-    HB=uint2uchar(val, HIGHBYTE);
-
-    sendFDcmd_set(170, 0, 0, LB, HB, LB, HB);
+    Q_UNUSED(notesToAccept);
 }
 
 void hwapi::bna_requestParameters(void) const
 {
     // send command to DC in order to get static invariable device parameters like currency
     // device must be powered and polled to get these
-
-    sendFDcmd_set(0, 41, 0, 0, 0, 0, 0);
 }
 
 bool hwapi::bna_getAllParameters(struct T_bna *bna) const
@@ -4234,128 +4199,38 @@ bool hwapi::bna_getAllParameters(struct T_bna *bna) const
     // get all constant data from reader (e.g. currency)
     // and actual Host-Settings (sent with bna_sendSettings() or json)
     // retval = true if data are valid
-    uint8_t buf[66], nn, pp;
-
-    epi_restoreBnaParams(buf);
-    bna->setup=buf[0];
-    bna->FeatureLevel=buf[1];
-    bna->countryCode=uchar2uint(buf[3], buf[2]);
-    bna->scalingFactor=uchar2uint(buf[5], buf[4]);
-    bna->decimalPlace=buf[6];
-    bna->pad1=0;
-    bna->stackerCap=uchar2uint(buf[8], buf[7]);
-    bna->billSecureLevel=uchar2uint(buf[10], buf[9]);
-    bna->hasEscrow=buf[11];
-
-    for (nn=0; nn<16; nn++)
-       bna->accBillTypes[nn] = buf[nn+12];
-
-    bna->currentStackerLevel = uchar2uint(buf[29], buf[28]);
-    bna->intendedAccept = uchar2uint(buf[31], buf[30]);
-    bna->pad2=0;
-    pp=32;
-    for (nn=0; nn<16; nn++)
-    {
-        bna->billDenomination[nn] = uchar2uint(buf[pp+1], buf[pp]);
-       pp+=2;
-    }
-    if (bna->setup)
-        return true;
-    else
+    Q_UNUSED(bna);
     return false;
 }
 
 void hwapi::bna_requestCurrentNotes(void) const
 {
     // send command to DC in order to get transaction data
-    sendFDcmd_set(0, 116, 0, 0, 0, 0, 0);
 }
 
 uint8_t hwapi::bna_getCurrentNotes(uint16_t latestBill, uint16_t *currentNotes) const
 {
     // returns number of collected bank notes since start-command (current transaction)
-    //  latestBill: not used
-    //  currentNotes[0] = last bill value
-    //  currentNotes[1] = 0/1  1 if bill in escrow  0 if bill in cash box (stacker)
-    //  currentNotes[2,3] = total sum of collected bills within this transaction
-
-    // incoming data:
-    //DB1: nr of bills (this transaction)
-    //DB2: 1 if bill in escrow
-    //DB3..6: collected amount
-    //DB7,8: denomination of last bill
-
-    uint8_t buf[10], haveBilInEscrow, haveNrOfBills;
-    uint16_t lastBillVal;
-    uint32_t collAmountThisTrans;
-
-    epi_restoreBnaCollection(buf);
-    haveNrOfBills=buf[0];
-    haveBilInEscrow=buf[1];
-    collAmountThisTrans = uchar2ulong(buf[5],buf[4],buf[3],buf[2]);
-    lastBillVal = uchar2uint(buf[7],buf[6]);
-
-    currentNotes[0]=latestBill; // just to get rid of compiler warning
-    currentNotes[0]=lastBillVal;
-    currentNotes[1]=haveBilInEscrow;
-    currentNotes[2]=uint16_t(collAmountThisTrans);
-    collAmountThisTrans>>=16;
-    currentNotes[3]=uint16_t(collAmountThisTrans);
-
-    return haveNrOfBills;
+    //  latestBill: last accepted bank note, value in cent
+    //  currentNotes an array with up to 16 (further) notes collected
+    Q_UNUSED(latestBill);
+    Q_UNUSED(currentNotes);
+    return 0;
 }
 
 void hwapi::bna_requestStackerLevel(void) const
 {
-    sendFDcmd_set(0, 42, 0, 0, 0, 0, 0);
+
 }
 
 uint16_t hwapi::bna_getStackerLevel(uint32_t *amountInStacker, uint16_t *countOfBills) const
 {
     // return val: nr of bills in stacker
-    // countOfBills[0..7] = count of bills of bill-type 0..7 (e.g. countOfBills[0]=nr of 5€-bills in stacker)
-    // countOfBills[8..15] = value of bill-type 0...7
-
-    // receive data:
-    //je zwei Byte pro Wert,
-    //1…16: Anzahl Scheine pro Typ
-    //33…48: Wertigkeit der Typen
-    uint8_t buf[66], nn, pp, qq;
-    uint16_t nrOfBills[16], valueOfBills[16], anzahl=0;
-    uint32_t  totalSum=0;
-
-    epi_restoreBnaContent(buf);
-
-    pp=0; qq=32;
-    for (nn=0; nn<16; nn++)
-    {
-        nrOfBills[nn]=uchar2uint(buf[pp+1],buf[pp]);
-        pp+=2;
-        valueOfBills[nn]=uchar2uint(buf[qq+1],buf[qq]);
-        qq+=2;
-    }
-
-    //qDebug()<<  "CAmaster hwapi::bna_getStackerLevel " << nrOfBills[0] <<" "<< nrOfBills[1]
-    //         <<" "<<nrOfBills[2]<<" "<<nrOfBills[3];
-    //    qDebug()<<   valueOfBills[0] <<" "<< valueOfBills[1] <<" "<<valueOfBills[2]<<" "<<valueOfBills[3];
-
-    // nur 8 zurueckmelden, mehr kommen derzeit von DC auch nicht
-    for (nn=0; nn<8; nn++)
-    {
-        countOfBills[nn]=nrOfBills[nn];
-        countOfBills[nn+7]=valueOfBills[nn];
-    }
-
-    for (nn=0; nn<8; nn++)
-    {
-        totalSum += nrOfBills[nn] * valueOfBills[nn];
-        anzahl += nrOfBills[nn];
-    }
-
-    //qDebug()<<"sum: "<< totalSum <<" Anzahl: "<<anzahl;
-
-    *amountInStacker=totalSum;
-    return anzahl;
+    // countOfBills: array of up to 16 sums,    countOfBills[0]=nr of 5€-bills in stacker
+    //                                          countOfBills[1] for 10€   and so on
+    Q_UNUSED(amountInStacker);
+    Q_UNUSED(countOfBills);
+    return 0;
 }
 
 

src/sendWRcmd sm.cpp

@@ -0,0 +1,811 @@
+#include <stdint.h>
+#include <QString>
+#include <QDebug>
+#include <QDateTime>
+#include "tslib.h"
+#include "sendWRcmd.h"
+#include "shared_mem_buffer.h"
+
+
+void indat_PrnPwr(void);
+
+
+void sendWRcmd_INI(void)
+{
+
+    sendWRcmd_clrCmdStack();
+    sendWRcmd_clrCmd4Stack();
+    sendFDcmd_clrStack();
+
+}
+
+// Command Stack for commands without parameters
+
+
+//static uint16_t nextAsynchsendCmd0[CMDSTACKDEPTH];
+//static uint8_t  nrOfCmdsInQueue;
+
+/* convention: use simple (not rotating) FIFO Stack:
+Example: nrOfCmdsInQueue=4 then
+    nextAsynchsendCmd0[0]=cmd1      // was stored as first
+    nextAsynchsendCmd0[1]=cmd2
+    nextAsynchsendCmd0[2]=cmd3
+    nextAsynchsendCmd0[3]=cmd4      // came in as last
+
+    Send: [0] first, then move buffer 1 down:
+    nextAsynchsendCmd0[0]=cmd2
+    nextAsynchsendCmd0[1]=cmd3
+    nextAsynchsendCmd0[2]=cmd4
+    nextAsynchsendCmd0[3]=0;
+    nrOfCmdsInQueue=3 now
+*/
+
+void sendWRcmd_clrCmdStack(void)
+{
+    uint8_t nn;
+    for (nn=0; nn<CMDSTACKDEPTH; nn++)
+        SharedMem::write()->nextAsynchsendCmd0[nn]=0;
+    SharedMem::write()->nrOfCmdsInQueue=0;
+}
+
+bool sendWRcmd_setSendCommand0(uint16_t nextCmd)
+{
+    // write Command to memory, wait for transport
+    uint8_t ciq=SharedMem::read()->nrOfCmdsInQueue;
+    if (ciq>=CMDSTACKDEPTH)
+    {
+        qDebug() << "cannot save cmd because stack is full";
+        return false;           // not possible
+    }
+
+    SharedMem::write()->nextAsynchsendCmd0[ciq++]=nextCmd;
+    SharedMem::write()->nrOfCmdsInQueue=ciq;
+
+    //qDebug() << "PI cmd queued:"<< nextCmd << ", saved, pp=" << nrOfCmdsInQueue;
+    return true;                // ok, will be sent
+}
+
+uint16_t sendWRcmd_getSendCommand0(void)
+{
+    uint16_t nxtAsynchCmd, data;
+    uint8_t nn, ll;
+    uint8_t ciq=SharedMem::read()->nrOfCmdsInQueue;
+
+    if (ciq==0 || ciq>CMDSTACKDEPTH)
+        return 0;   // error
+    nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd0[0];
+
+    // move Puffer down by one element
+    if (ciq>0)
+        ll=ciq-1;
+    else
+        ll=0;
+    for (nn=0; nn<ll; nn++)
+    {
+        data=SharedMem::read()->nextAsynchsendCmd0[nn+1];
+        SharedMem::write()->nextAsynchsendCmd0[nn]=data;
+    }
+    SharedMem::write()->nrOfCmdsInQueue=ciq;
+    //qDebug() << "PI cmd queued:"<< nxtAsynchCmd << ", restored, pp now =" << nrOfCmdsInQueue;
+    return nxtAsynchCmd;
+}
+
+//---------------------------------------------------------------------------------------------------------------------
+//---------------------------------------------------------------------------------------------------------------------
+// Command Stack for commands with 4 parameters
+
+
+/*
+static uint16_t nextAsynchsendCmd4[CMD4STACKDEPTH];
+static uint8_t  nextCmd4para1[CMD4STACKDEPTH];
+static uint8_t  nextCmd4para2[CMD4STACKDEPTH];
+static uint8_t  nextCmd4para3[CMD4STACKDEPTH];
+static uint8_t  nextCmd4para4[CMD4STACKDEPTH];
+static uint8_t  nrOfCmds4InQueue;
+*/
+
+
+void sendWRcmd_clrCmd4Stack(void)
+{
+    uint8_t nn;
+    for (nn=0; nn<CMD4STACKDEPTH; nn++)
+    {
+        SharedMem::write()->nextAsynchsendCmd4[nn]=0;
+        SharedMem::write()->nextCmd4para1[nn]=0;
+        SharedMem::write()->nextCmd4para2[nn]=0;
+        SharedMem::write()->nextCmd4para3[nn]=0;
+        SharedMem::write()->nextCmd4para4[nn]=0;
+    }
+    SharedMem::write()->nrOfCmds4InQueue=0;
+}
+
+
+bool sendWRcmd_setSendCommand4(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint8_t dat3, uint8_t dat4)
+{
+    // write Command to memory, wait for transport
+    uint8_t ciq;
+    ciq=SharedMem::read()->nrOfCmds4InQueue;
+
+    if (ciq>=CMD4STACKDEPTH)
+    {
+        qDebug() << "cannot save cmd because stack is full";
+        return false;           // not possible
+    }
+
+    SharedMem::write()->nextAsynchsendCmd4[ciq]=nextCmd;
+    SharedMem::write()->nextCmd4para1[ciq]=dat1;
+    SharedMem::write()->nextCmd4para2[ciq]=dat2;
+    SharedMem::write()->nextCmd4para3[ciq]=dat3;
+    SharedMem::write()->nextCmd4para4[ciq]=dat4;
+    ciq++;
+    SharedMem::write()->nrOfCmds4InQueue=ciq;
+
+    //qDebug() << QDateTime::currentDateTime().time()
+    //         << "sendWRcmd 4 byte saved, pp=" << nextCmd
+    //         << " para: " << SharedMem::getDataConst()->nextCmd4para1[pp];
+
+    return true;                // ok, will be sent
+}
+
+/*
+uint16_t sendWRcmd_getSendCommand4(uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4)
+{
+    uint16_t nxtAsynchCmd;
+    uint8_t nn, ll;
+
+    if (nrOfCmds4InQueue==0 || nrOfCmds4InQueue>CMD4STACKDEPTH)
+        return 0;   // error
+    nxtAsynchCmd=nextAsynchsendCmd4[0];
+    *dat1=nextCmd4para1[0];
+    *dat2=nextCmd4para2[0];
+    *dat3=nextCmd4para3[0];
+    *dat4=nextCmd4para4[0];
+    //qDebug() << "cmd4  restored to send from [0];  pp=" << nrOfCmds4InQueue;
+    //qDebug() << " data1: " << nextCmd4para1[0] << " data2: " << nextCmd4para2[0] <<
+    //            " data3: " << nextCmd4para3[0] << " data4: " << nextCmd4para4[0];
+
+    // move Puffer down by one element
+        if (CMD4STACKDEPTH>0)
+        ll=CMD4STACKDEPTH-1;
+    else
+        ll=0;
+    for (nn=0; nn<ll; nn++)
+    {
+        nextAsynchsendCmd4[nn]=nextAsynchsendCmd4[nn+1];
+        nextCmd4para1[nn]=nextCmd4para1[nn+1];
+        nextCmd4para2[nn]=nextCmd4para2[nn+1];
+        nextCmd4para3[nn]=nextCmd4para3[nn+1];
+        nextCmd4para4[nn]=nextCmd4para4[nn+1];
+    }
+    if (nrOfCmds4InQueue>0)
+        nrOfCmds4InQueue--;
+    //qDebug() << "cmd4  after push down: pp=" << nrOfCmds4InQueue;
+    return nxtAsynchCmd;
+}
+
+
+*/
+
+uint16_t sendWRcmd_getSendCommand4(uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4)
+{
+    uint16_t nxtAsynchCmd, data;
+    uint8_t nn;
+    uint8_t ciq=SharedMem::read()->nrOfCmds4InQueue;
+
+    if (ciq==0 || ciq > CMD4STACKDEPTH)
+        return 0;   // error
+
+    nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd4[0];
+    *dat1=SharedMem::read()->nextCmd4para1[0];
+    *dat2=SharedMem::read()->nextCmd4para2[0];
+    *dat3=SharedMem::read()->nextCmd4para3[0];
+    *dat4=SharedMem::read()->nextCmd4para4[0];
+    //qDebug() << "cmd4  restored to send from [0];  pp=" << nrOfCmds4InQueue;
+    //qDebug() << " data1: " << nextCmd4para1[0] << " data2: " << nextCmd4para2[0] <<
+    //            " data3: " << nextCmd4para3[0] << " data4: " << nextCmd4para4[0];
+
+    // move Puffer down by one element
+    if (ciq>0) ciq--;
+
+    for (nn=0; nn<ciq; nn++)
+    {
+        data=SharedMem::read()->nextAsynchsendCmd4[nn+1];
+        SharedMem::write()->nextAsynchsendCmd4[nn]=data;
+        data=SharedMem::read()->nextCmd4para1[nn+1];
+        SharedMem::write()->nextCmd4para1[nn]=data;
+        data=SharedMem::read()->nextCmd4para2[nn+1];
+        SharedMem::write()->nextCmd4para2[nn]=data;
+        data=SharedMem::read()->nextCmd4para3[nn+1];
+        SharedMem::write()->nextCmd4para3[nn]=data;
+        data=SharedMem::read()->nextCmd4para4[nn+1];
+        SharedMem::write()->nextCmd4para4[nn]=data;
+    }
+
+    SharedMem::write()->nrOfCmds4InQueue=ciq;
+    return nxtAsynchCmd;
+}
+
+
+
+void sendWRcmd_clrCmd8Stack(void)
+{
+    uint8_t nn;
+    for (nn=0; nn<CMD8STACKDEPTH; nn++)
+    {
+        SharedMem::write()->nextAsynchsendCmd8[nn]=0;
+        SharedMem::write()->nextCmd8para1[nn]=0;
+        SharedMem::write()->nextCmd8para2[nn]=0;
+        SharedMem::write()->nextCmd8para3[nn]=0;
+        SharedMem::write()->nextCmd8para4[nn]=0;
+    }
+    SharedMem::write()->nrOfCmds8InQueue=0;
+}
+
+bool sendWRcmd_setSendCommand8(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint16_t dat3, uint32_t dat4)
+{
+    // write Command to memory, wait for transport
+    uint8_t ciq;
+    ciq=SharedMem::read()->nrOfCmds8InQueue;
+
+    if (ciq>=CMD8STACKDEPTH)
+    {
+        qDebug() << "cannot save cmd because stack is full";
+        return false;           // not possible
+    }
+    SharedMem::write()->nextAsynchsendCmd8[ciq]=nextCmd;
+    SharedMem::write()->nextCmd8para1[ciq]=dat1;
+    SharedMem::write()->nextCmd8para2[ciq]=dat2;
+    SharedMem::write()->nextCmd8para3[ciq]=dat3;
+    SharedMem::write()->nextCmd8para4[ciq]=dat4;
+    ciq++;
+    SharedMem::write()->nrOfCmds8InQueue=ciq;
+    return true;                // ok, will be sent
+}
+
+uint16_t sendWRcmd_getSendCommand8(uint8_t *dat1, uint8_t *dat2, uint16_t *dat3, uint32_t *dat4)
+{
+    uint16_t nxtAsynchCmd, data;
+    uint8_t nn;
+
+    uint8_t ciq=SharedMem::read()->nrOfCmds8InQueue;
+
+    if (ciq==0 || ciq > CMD8STACKDEPTH)
+        return 0;   // error
+
+    nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd8[0];
+    *dat1=SharedMem::read()->nextCmd8para1[0];
+    *dat2=SharedMem::read()->nextCmd8para2[0];
+    *dat3=SharedMem::read()->nextCmd8para3[0];
+    *dat4=SharedMem::read()->nextCmd8para4[0];
+
+    // move buffer down by one element       
+    if (ciq>0) ciq--;
+
+    for (nn=0; nn<ciq; nn++)
+    {
+        data=SharedMem::read()->nextAsynchsendCmd8[nn+1];
+        SharedMem::write()->nextAsynchsendCmd8[nn]=data;
+        data=SharedMem::read()->nextCmd8para1[nn+1];
+        SharedMem::write()->nextCmd8para1[nn]=data;
+        data=SharedMem::read()->nextCmd8para2[nn+1];
+        SharedMem::write()->nextCmd8para2[nn]=data;
+        data=SharedMem::read()->nextCmd8para3[nn+1];
+        SharedMem::write()->nextCmd8para3[nn]=data;
+        data=SharedMem::read()->nextCmd8para4[nn+1];
+        SharedMem::write()->nextCmd8para4[nn]=data;
+    }
+    SharedMem::write()->nrOfCmds8InQueue=ciq;
+    return nxtAsynchCmd;
+}
+
+
+
+//static uint8_t sendAsynchDataBuf[160]; // no stack, only ONE buffer
+//static uint8_t sendAsyDatLen;
+
+bool sendWRcmd_setSendBlock160(uint8_t leng, uint8_t *buf)
+{
+    if (leng>SENDASYDAT_BUFFSIZE) leng=SENDASYDAT_BUFFSIZE;
+    SharedMem::write()->sendAsyDatLen=leng;
+    tslib_strclr(SharedMem::write()->sendAsynchDataBuf, 0, SENDASYDAT_BUFFSIZE);
+    for (uint8_t nn=0; nn<leng; nn++)
+        SharedMem::write()->sendAsynchDataBuf[nn]=buf[nn];
+    return true;                // ok, will be sent
+}
+
+uint8_t sendWRcmd_getSendBlock160(uint8_t *leng, uint8_t *buf)
+{    
+
+    uint8_t  dl=SharedMem::read()->sendAsyDatLen;
+    *leng=dl;
+    for (uint8_t nn=0; nn<dl; nn++)
+        buf[nn]=SharedMem::read()->sendAsynchDataBuf[nn];
+    SharedMem::write()->sendAsyDatLen=0;
+    //tslib_strclr(SharedMem::write()->sendAsynchDataBuf, 0, SENDASYDAT_BUFFSIZE);
+    return *leng;
+}
+
+
+// ------------------------------------------------------------------------------------
+// MDB Sendind Data  are store here for next transport to DC (Device Controller)
+// Transport to Slave runs every 100ms, answer from mdb-slave (e.g. coin changer) comes rigth
+// with next slave answer
+
+// start with: SENDDIRCMD_EXCHGMDB,
+    // send crude data from here to DC, DC to mdb slaves, mdb answer, return here within 50ms
+
+
+//static uint8_t Sdata_mdbSendBuffer[MDBSEND_BUFFSIZE];
+//static uint8_t Sdata_mdbSendLen;
+
+uint8_t epi_store64ByteSendData(uint8_t length, uint8_t *buf)
+{
+    if (length>MDBSEND_BUFFSIZE) length=MDBSEND_BUFFSIZE;
+
+    // HWapi writes data to be forwarded to DC and further to mdb-device
+    for (uint8_t nn=0; nn<length; nn++)
+        SharedMem::write()->Sdata_mdbSendBuffer[nn]=buf[nn];
+    SharedMem::write()->Sdata_mdbSendLen=length;
+    return 0;
+}
+
+uint8_t gpi_restore64ByteSendData(uint8_t *length, uint8_t *buf)
+{
+    // datif reads data to forward to dc
+    uint8_t  dl=SharedMem::read()->Sdata_mdbSendLen;
+
+    for (uint8_t nn=0; nn<dl; nn++)
+        buf[nn]=SharedMem::read()->Sdata_mdbSendBuffer[nn];
+    *length=dl;
+    SharedMem::write()->Sdata_mdbSendLen=0;
+    return 0;
+}
+
+
+
+
+//------------------------------------------------------------------------------------
+//------------------------------------------------------------------------------------
+//---------------------------------------- Printer Text Fifo -------------------------
+//static uint8_t prnDataParameters[];
+//static uint8_t prnDataBufferUser;
+
+void epi_storeUserOfSendingTextBuffer(uint8_t user, uint8_t para1, uint8_t para2, uint8_t para3, uint8_t para4 )
+{
+    // user=1: Text-Print is using this buffer
+    //      2: QR-code-Printer is using this buffer
+    SharedMem::write()->prnDataBufferUser=user;
+    SharedMem::write()->prnDataParameters[0]=para1;
+    SharedMem::write()->prnDataParameters[1]=para2;
+    SharedMem::write()->prnDataParameters[2]=para3;
+    SharedMem::write()->prnDataParameters[3]=para4;
+
+//    qDebug() << "new user stored: " << user;
+
+}
+
+uint8_t gpi_getUserOfSendingTextBuffer(uint8_t *para1, uint8_t *para2, uint8_t *para3, uint8_t *para4)
+{
+    // user=1: Text-Print is using this buffer
+    //      2: QR-code-Printer is using this buffer
+    //qDebug() << "returning user "<< prnDataBufferUser;
+
+    *para1=SharedMem::read()->prnDataParameters[0];
+    *para2=SharedMem::read()->prnDataParameters[1];
+    *para3=SharedMem::read()->prnDataParameters[2];
+    *para4=SharedMem::read()->prnDataParameters[3];
+    return SharedMem::read()->prnDataBufferUser;
+
+}
+
+
+
+
+
+
+
+    // Sending Text Fifo
+// ONE printer doc consists of 20 x 64 byte
+// #define MAXNROF_PRNBYTES   64
+// #define MAXNROF_PRNBLOCKS  20
+//static char Sdata_PRN_TEXT[MAXNROF_PRNBLOCKS][MAXNROF_PRNBYTES];
+//static uint8_t pPrnDataBuff;        // points to next PRINTER_BLOCK
+//static uint8_t pPrnDataBuff;        // points to next waiting printer text
+//  defined above, needed if more then one text is stored (before sent)
+// every block will be sent after 100ms, if 8 blocks are stored within this 100ms
+// then pointer goes up to 8. Important: FIFO!!!!!!!!
+
+void epi_resetPrinterStack(void)
+{
+    SharedMem::write()->pPrnDataBuff=0;
+}
+
+uint8_t epi_storePrnText(char *buf, uint8_t leng)
+{
+    // store text from Gui in next higher free memory 0....9
+
+    uint16_t len;
+    uint8_t  pp, nn;
+
+    pp=SharedMem::read()->pPrnDataBuff;    // next free memory block with 64byte each
+    if (pp>=MAXNROF_PRNBLOCKS)
+        return 1;   // not possible, no free mem
+
+    //len=tslib_strlen(buf);    // kennt keine Binärzeichen!!!!!!
+    len=leng;
+    if (len>MAXNROF_PRNBYTES)
+        len=MAXNROF_PRNBYTES;
+
+    tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[pp], 0, MAXNROF_PRNBYTES);
+
+    for (nn=0; nn<len; nn++)
+        SharedMem::write()->Sdata_PRN_TEXT[pp][nn]=buf[nn];     // copy new text into buffer
+
+    if (SharedMem::read()->pPrnDataBuff<MAXNROF_PRNBLOCKS)
+        SharedMem::write()->pPrnDataBuff++;                     // inc pointer if end not yet reached
+    return 0;       // OK
+}
+
+
+
+uint8_t gpi_restorePrnText(uint8_t *retbuf)
+{
+    // read printer text and send to slave, size of retbuf == 64
+
+    // always read from [0] because this is the oldest (Fifo)
+    // then move all text lines down by one and dec pointer
+
+    uint8_t  nn, mm, pp=SharedMem::read()->pPrnDataBuff;
+    char     buf[MAXNROF_PRNBYTES];
+
+    if (pp==0)    // next free memory block with 64byte each
+        return 1;           // no text in buffer
+
+    // example: pp=5: then buffers [0...4] are occupied
+
+    for (nn=0; nn<MAXNROF_PRNBYTES; nn++)
+        retbuf[nn] = uint8_t (SharedMem::read()->Sdata_PRN_TEXT[0][nn]);     // restore oldest text
+
+    // now copy textline [1] to [0], then
+    // copy textline [2] to [1], then
+    // copy textline [3] to [2] .... upto [pp-1] to [pp-2]
+    // hint: copying from 9....0 would delete all strings!!!!!!
+    for (nn=0; nn<(pp-1); nn++)
+    {
+        for (mm=0; mm<MAXNROF_PRNBYTES; mm++)
+            buf[mm]=SharedMem::read()->Sdata_PRN_TEXT[nn+1][mm];
+        for (mm=0; mm<MAXNROF_PRNBYTES; mm++)
+            SharedMem::write()->Sdata_PRN_TEXT[nn][mm]=buf[mm];
+    }
+    if (pp>0) pp--;
+        SharedMem::write()->pPrnDataBuff=pp;
+
+    // example: pp=4: then buffers [0...3] are still occupied, pp=0: all buffers empty
+
+    // now clear highest copyed line (which became free now)
+    tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[pp], 0, MAXNROF_PRNBYTES);
+
+    // optionally: clear all remaining higher lines:
+    for (nn=(pp+1); nn<MAXNROF_PRNBLOCKS; nn++)
+         tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[nn], 0, MAXNROF_PRNBYTES);
+
+    return 0;
+}
+
+uint8_t gpi_chk4remainingText(void)
+{
+    // retval: 0: no more textline left (to send)  >0: nr of 64byte-blocks
+    return (SharedMem::read()->pPrnDataBuff);
+}
+
+
+
+
+
+
+
+
+
+
+// ---------------------------------------------------------------------------------
+//   11.4.23 neu, Kommando direkt an "FastDevice"-protokoll senden, nicht mehr umsetzen
+// ---------------------------------------------------------------------------------
+/*
+// header
+static uint8_t nextFDwrCmd[FDCMD_STACKDEPTH];
+static uint8_t nextFDrdCmd[FDCMD_STACKDEPTH];
+static uint8_t nextFDblkNr[FDCMD_STACKDEPTH];
+static uint8_t nextFDshort[FDCMD_STACKDEPTH];
+
+// short data
+static uint8_t  nextFDpara1[FDCMD_STACKDEPTH];
+static uint8_t  nextFDpara2[FDCMD_STACKDEPTH];
+static uint8_t  nextFDpara3[FDCMD_STACKDEPTH];
+static uint8_t  nextFDpara4[FDCMD_STACKDEPTH];
+// long data:
+static uint8_t longFDlength[FDCMD_STACKDEPTH];
+static uint8_t longFDpara[FDCMD_STACKDEPTH][64];
+
+static uint8_t  p_nextFDcmdsInQueue;
+*/
+
+/* convention: use simple (not rotating) FIFO Stack:
+Example: nrOfCmdsInQueue=4 then
+    nextAsynchsendCmd0[0]=cmd1      // was stored as first
+    nextAsynchsendCmd0[1]=cmd2
+    nextAsynchsendCmd0[2]=cmd3
+    nextAsynchsendCmd0[3]=cmd4      // came in as last
+
+    Send: [0] first, then move buffer 1 down:
+    nextAsynchsendCmd0[0]=cmd2
+    nextAsynchsendCmd0[1]=cmd3
+    nextAsynchsendCmd0[2]=cmd4
+    nextAsynchsendCmd0[3]=0;
+    nrOfCmdsInQueue=3 now
+*/
+
+
+void sendFDcmd_clrStack(void)
+{
+    uint8_t nn;
+    for (nn=0; nn<FDCMD_STACKDEPTH; nn++)
+    {
+        SharedMem::write()->nextFDwrCmd[nn]=0;
+        SharedMem::write()->nextFDrdCmd[nn]=0;
+        SharedMem::write()->nextFDblkNr[nn]=0;
+        SharedMem::write()->nextFDshort[nn]=0;
+        SharedMem::write()->nextFDpara1[nn]=0;
+        SharedMem::write()->nextFDpara2[nn]=0;
+        SharedMem::write()->nextFDpara3[nn]=0;
+        SharedMem::write()->nextFDpara4[nn]=0;
+        SharedMem::write()->longFDlength[nn]=0;
+        memset(&SharedMem::write()->longFDpara[nn][0],0,64);
+    }
+
+    SharedMem::write()->p_nextFDcmdsInQueue=0;
+}
+
+bool sendFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8_t dat1, uint8_t dat2, uint8_t dat3, uint8_t dat4)
+{
+
+    // write Command to memory, wait for transport
+    uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
+
+    if (pFDcmd >=FDCMD_STACKDEPTH)
+    {
+        qDebug() << "cannot save cmd because stack is full";
+        return false;           // not possible
+    }
+    SharedMem::write()->nextFDwrCmd[pFDcmd]=nextWrCmd;
+    SharedMem::write()->nextFDrdCmd[pFDcmd]=nextRdCmd;
+    SharedMem::write()->nextFDblkNr[pFDcmd]=blockNum;
+    SharedMem::write()->nextFDpara1[pFDcmd]=dat1;
+    SharedMem::write()->nextFDpara2[pFDcmd]=dat2;
+    SharedMem::write()->nextFDpara3[pFDcmd]=dat3;
+    SharedMem::write()->nextFDpara4[pFDcmd]=dat4;
+    //qDebug() << "data with 4 data byte saved, pp=" << pFDcmd;
+    //qDebug() << " dat1=" << nextCmd4para1[pFDcmd] << " dat2=" << nextCmd4para2[pFDcmd]
+    //             << " dat3=" << nextCmd4para3[pFDcmd]  << " dat4=" << nextCmd4para4[pFDcmd];
+    SharedMem::write()->nextFDshort[pFDcmd]=1; // 1=short
+    pFDcmd++;
+    SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
+
+    return true;                // ok, will be sent
+}
+
+
+bool longFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8_t length, uint8_t *data)
+{
+    // write Command to memory, wait for transport
+    // data buffer size always 64! data[64], padded with 0
+    uint8_t nn;
+    uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
+
+    if (pFDcmd>=FDCMD_STACKDEPTH)
+    {
+        qDebug() << "cannot save cmd because stack is full";
+        return false;           // not possible
+    }
+    SharedMem::write()->nextFDwrCmd[pFDcmd]=nextWrCmd;
+    SharedMem::write()->nextFDrdCmd[pFDcmd]=nextRdCmd;
+    SharedMem::write()->nextFDblkNr[pFDcmd]=blockNum;
+
+    SharedMem::write()->longFDlength[pFDcmd]=length;
+
+    for (nn=0; nn<64; nn++)
+        SharedMem::write()->longFDpara[pFDcmd][nn]=data[nn];
+
+    SharedMem::write()->nextFDshort[pFDcmd]=2;
+    pFDcmd++;
+    SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
+    return true;                // ok, will be sent
+}
+
+
+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 nn, mm, data;  // ll
+    uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
+
+    if (pFDcmd==0 || pFDcmd>FDCMD_STACKDEPTH)
+        return false;           // not possible
+
+    *nextWrCmd=SharedMem::read()->nextFDwrCmd[0];
+    *nextRdCmd=SharedMem::read()->nextFDrdCmd[0];
+    *blockNum=SharedMem::read()->nextFDblkNr[0];
+    *dat1=SharedMem::read()->nextFDpara1[0];
+    *dat2=SharedMem::read()->nextFDpara2[0];
+    *dat3=SharedMem::read()->nextFDpara3[0];
+    *dat4=SharedMem::read()->nextFDpara4[0];
+    //qDebug() << "sendFDcmd_get [0];  pp=" << SharedMem::read()->p_nextFDcmdsInQueue;
+    //qDebug() << " data1: " << SharedMem::read()->nextCmd4para1[0] << " data2: " << SharedMem::read()->nextCmd4para2[0] <<
+    //            " data3: " << SharedMem::read()->nextCmd4para3[0] << " data4: " << SharedMem::read()->nextCmd4para4[0];
+
+    // move Puffer down by one element
+    //if (FDCMD_STACKDEPTH>0)
+    //    ll=FDCMD_STACKDEPTH-1;
+    //else
+    //    ll=0;
+
+    if (pFDcmd>0) pFDcmd--; else pFDcmd=0;
+
+    //for (nn=0; nn<ll; nn++)
+    for (nn=0; nn<pFDcmd; nn++)
+    {
+        data=SharedMem::read()->nextFDwrCmd[nn+1];
+        SharedMem::write()->nextFDwrCmd[nn]=data;
+        data=SharedMem::read()->nextFDrdCmd[nn+1];
+        SharedMem::write()->nextFDrdCmd[nn]=data;
+        data=SharedMem::read()->nextFDblkNr[nn+1];
+        SharedMem::write()->nextFDblkNr[nn]=data;
+        data=SharedMem::read()->nextFDpara1[nn+1];
+        SharedMem::write()->nextFDpara1[nn]=data;
+        data=SharedMem::read()->nextFDpara2[nn+1];
+        SharedMem::write()->nextFDpara2[nn]=data;
+        data=SharedMem::read()->nextFDpara3[nn+1];
+        SharedMem::write()->nextFDpara3[nn]=data;
+        data=SharedMem::read()->nextFDpara4[nn+1];
+        SharedMem::write()->nextFDpara4[nn]=data;
+
+        data=SharedMem::read()->nextFDshort[nn+1];
+        SharedMem::write()->nextFDshort[nn] = data;
+
+        data=SharedMem::read()->longFDlength[nn+1];
+        SharedMem::write()->longFDlength[nn] = data;
+
+        for (mm=0; mm<64; mm++)
+        {
+            SharedMem::write()->longFDpara[nn][mm] = SharedMem::read()->longFDpara[nn+1][mm];
+        }
+
+    }
+
+    SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
+    //qDebug() << "cmd4  after push down: pp=" << nrOfCmds4InQueue;
+
+    // clear released buffer:
+    //for (nn=p_nextFDcmdsInQueue; nn<FDCMD_STACKDEPTH; nn++)
+    //{
+        SharedMem::write()->nextFDwrCmd[pFDcmd]=0;
+        SharedMem::write()->nextFDrdCmd[pFDcmd]=0;
+        SharedMem::write()->nextFDblkNr[pFDcmd]=0;
+
+        SharedMem::write()->nextFDpara1[pFDcmd]=0;
+        SharedMem::write()->nextFDpara2[pFDcmd]=0;
+        SharedMem::write()->nextFDpara3[pFDcmd]=0;
+        SharedMem::write()->nextFDpara4[pFDcmd]=0;
+        SharedMem::write()->nextFDshort[pFDcmd]=0;
+        SharedMem::write()->longFDlength[pFDcmd]=0;
+        for (mm=0; mm<64; mm++)
+            SharedMem::write()->longFDpara[pFDcmd][mm] = 0;
+    //}
+
+/*
+    qDebug() << "sendFDcmd_set, stack now: " << p_nextFDcmdsInQueue;
+    for (nn=0; nn<16; nn++)
+    {
+        qDebug() << "header: " << nextFDwrCmd[nn] << " / " << nextFDrdCmd[nn] << " / "<< nextFDblkNr[nn] << " / " << nextFDshort[nn];
+
+        qDebug() << "    short data: " << nextFDpara1[nn] << " / "<< nextFDpara2[nn] << " / "<< nextFDpara3[nn]<< " / "<< nextFDpara4[nn];
+
+        qDebug() << "    long data: " << longFDlength[nn] << " / "<< longFDpara[nn][0] << " / "<< longFDpara[nn][1]
+                 << " / "<< longFDpara[nn][2] << " / "<< longFDpara[nn][3] << " / "<< longFDpara[nn][4];
+    }
+*/
+    return true;                // ok, will be sent
+}
+
+uint8_t checkNextFDcmd(void)
+{
+    // return 0: no command waiting
+//          1: short cmd
+//          2: long cmd
+    //qDebug() << "chk nxt fd cmd: "<<p_nextFDcmdsInQueue<<" "<<nextFDshort[0]<<" "<<nextFDshort[1]<<" "<<nextFDshort[2]<<" "<<nextFDshort[3];
+    if (SharedMem::read()->p_nextFDcmdsInQueue==0)
+        return 0;
+    if (SharedMem::read()->nextFDshort[0]==1)
+        return 1;
+    return 2;
+}
+
+uint8_t check4FDshortCmd(void)
+{
+    // returns number of waiting command, max FDCMD_STACKDEPTH
+    return SharedMem::read()->p_nextFDcmdsInQueue;
+}
+
+
+uint8_t check4freeFDshortCmd(void)
+{
+    // returns number of free places in short-command stack
+    return FDCMD_STACKDEPTH - SharedMem::read()->p_nextFDcmdsInQueue;
+}
+
+bool longFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, uint8_t *length, uint8_t *data)
+{
+    uint8_t nn, mm, uctmp;
+    uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
+
+    if (pFDcmd==0 || pFDcmd>FDCMD_STACKDEPTH)
+        return false;           // not possible
+
+    *nextWrCmd=SharedMem::read()->nextFDwrCmd[0];
+    *nextRdCmd=SharedMem::read()->nextFDrdCmd[0];
+    *blockNum=SharedMem::read()->nextFDblkNr[0];
+    *length   = SharedMem::read()->longFDlength[0];
+    for (mm=0; mm<64; mm++)
+        data[mm] = SharedMem::read()->longFDpara[0][mm];
+
+    if (pFDcmd>0) pFDcmd--; else pFDcmd=0;
+
+    //for (nn=0; nn<ll; nn++)
+    for (nn=0; nn<pFDcmd; nn++)
+    {
+        uctmp=SharedMem::read()->nextFDwrCmd[nn+1];
+        SharedMem::write()->nextFDwrCmd[nn]=uctmp;
+        uctmp=SharedMem::read()->nextFDrdCmd[nn+1];
+        SharedMem::write()->nextFDrdCmd[nn]=uctmp;
+        uctmp=SharedMem::read()->nextFDblkNr[nn+1];
+        SharedMem::write()->nextFDblkNr[nn]=uctmp;
+
+        uctmp=SharedMem::read()->nextFDpara1[nn+1];
+        SharedMem::write()->nextFDpara1[nn]=uctmp;
+        uctmp=SharedMem::read()->nextFDpara2[nn+1];
+        SharedMem::write()->nextFDpara2[nn]=uctmp;
+        uctmp=SharedMem::read()->nextFDpara3[nn+1];
+        SharedMem::write()->nextFDpara3[nn]=uctmp;
+        uctmp=SharedMem::read()->nextFDpara4[nn+1];
+        SharedMem::write()->nextFDpara4[nn]=uctmp;
+
+        uctmp=SharedMem::read()->nextFDshort[nn+1];
+        SharedMem::write()->nextFDshort[nn]=uctmp;
+        uctmp=SharedMem::read()->longFDlength[nn+1];
+        SharedMem::write()->longFDlength[nn]=uctmp;
+
+        for (mm=0; mm<64; mm++)
+        {
+            SharedMem::write()->longFDpara[nn][mm] = SharedMem::read()->longFDpara[nn+1][mm];
+        }
+
+    }
+
+    SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
+    // clear released buffer:
+    SharedMem::write()->nextFDwrCmd[pFDcmd]=0;
+    SharedMem::write()->nextFDrdCmd[pFDcmd]=0;
+    SharedMem::write()->nextFDblkNr[pFDcmd]=0;
+
+    SharedMem::write()->nextFDpara1[pFDcmd]=0;
+    SharedMem::write()->nextFDpara2[pFDcmd]=0;
+    SharedMem::write()->nextFDpara3[pFDcmd]=0;
+    SharedMem::write()->nextFDpara4[pFDcmd]=0;
+    SharedMem::write()->nextFDshort[pFDcmd]=0;
+    SharedMem::write()->longFDlength[pFDcmd]=0;
+    for (mm=0; mm<64; mm++)
+        SharedMem::write()->longFDpara[pFDcmd][mm] = 0;
+
+    return true;                // ok, will be sent
+}
+
+
+

src/storeINdata.cpp

@@ -1984,7 +1984,7 @@ void epi_iniVRstorage(void)
 void gpi_storeVaultRecord(uint8_t blkNr, uint8_t *data )
 {
     uint16_t start=blkNr, ii;
-    //qDebug()<<"storing vault data "<<blkNr;
+    qDebug()<<"storing vault data "<<blkNr;
     SharedMem::write()->store_gotNrBlocksOfVaultRec |= (1<<start);  // setze pro Block ein bit, wir brauchen block 0...5
                                                 // also muss store_gotNrBlocksOfVaultRec auf 0x1F stehen
     start<<=6;      // *64
@@ -2332,67 +2332,7 @@ void epi_restoreTubeLevel(uint8_t  *data)
 
 
 
-void gpi_storeBnaParams(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<64; nn++)
-    {
-        SharedMem::write()->store_bnaParameter[nn]=data[nn];
-    }
-
-}
-
-void epi_restoreBnaParams(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<64; nn++)
-    {
-        data[nn]=SharedMem::read()->store_bnaParameter[nn];
-    }
-
-}
-
-
-void gpi_storeBnaCollection(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<8; nn++)
-    {
-        SharedMem::write()->store_bnaCollect[nn]=data[nn];
-    }
-
-}
-
-void epi_restoreBnaCollection(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<8; nn++)
-    {
-        data[nn]=SharedMem::read()->store_bnaCollect[nn];
-    }
-
-}
-
-
-void gpi_storeBnaContent(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<64; nn++)
-    {
-        SharedMem::write()->store_bnaContent[nn]=data[nn];
-    }
-
-}
-
-void epi_restoreBnaContent(uint8_t  *data)
-{
-    int nn;
-    for (nn=0; nn<64; nn++)
-    {
-        data[nn]=SharedMem::read()->store_bnaContent[nn];
-    }
-
-}
+