Subversion Repositories f9daq

#include <stdlib.h>

#include <stdio.h>

#include <stdint.h>

#include <CAENVMElib.h>

#include <CAENVMEoslib.h>

#include <CAENVMEtypes.h>

#ifndef _CVI_

#define __stdcall

#define UCHAR unsigned char

#define  _VI_FUNC

#endif

#include "CAENV1718.h"

int32_t CAEN_udev;

int VMEerrors;

int CAEN_VME_start (char* serial) {

  CVErrorCodes result = CAENVME_Init( cvV1718 , 0 , 0 , &CAEN_udev);

  if (result != cvSuccess) {

    printf("CAEN1718 Init %s\n", CAENVME_DecodeError(result));

    printf(" Check usb cable, usb udev permissions and restart!  Exiting .....\n");

    return (-1);

  }

  if (serial == NULL) serial = (char *) malloc(100*sizeof(char));

  CAENVME_BoardFWRelease(CAEN_udev, serial);

  return result;

}

short CAEN_VME_read(long Handle, unsigned long Address, void *Data, CVAddressModifier AM, CVDataWidth DW) {

  CVErrorCodes result;

  int ncount=0;

  while (1) {

    result = CAENVME_ReadCycle(Handle, Address, Data, AM, DW );

    if (result !=cvSuccess ) {

      VMEerrors++;

      printf("%d CAENVME_ReadCycle at 0x%0lX failed! data=0x%0X  AM= 0x%0X DW= 0x%0X  err=%s\n", ncount,Address, *((uint32_t *) Data),AM,DW, CAENVME_DecodeError(result));

      ncount++;

      if (ncount==10) return (result);

    } else break;

  }

  return result;

}

int CAEN_VME_BltRead(long Handle, unsigned long Address, void *Data, int size, CVAddressModifier AM, CVDataWidth DW) {

  int count=0;

  CVErrorCodes result;

  int ncount=0;

  while (1) {

    result = CAENVME_BLTReadCycle(Handle, Address, Data, size, AM, DW , &count);

    if (result !=cvSuccess ) {

      VMEerrors++;

      printf("%d CAENVME_BLTReadCycle at 0x%0lX failed! data=0x%0X  AM= 0x%0X DW= 0x%0X  err=%s count=%d\n", ncount,Address, *((uint32_t *) Data),AM,DW, CAENVME_DecodeError(result),count);

      ncount++;

      if (ncount==10) return (result);

    } else break;

  }

  return count;

}

short CAEN_VME_write(long Handle, unsigned long Address, void *Data, CVAddressModifier AM, CVDataWidth DW) {

  CVErrorCodes result;

  int ncount=0;

  while (1) {

    result = CAENVME_WriteCycle(Handle, Address, Data, AM, DW );

    if (result !=cvSuccess ) {

      VMEerrors++;

      printf("CAENVME_WriteCycle at 0x%0lX failed! data=0x%0X  AM= 0x%0X DW= 0x%0X  err=%s\n", Address, *((uint32_t *) Data),AM,DW, CAENVME_DecodeError(result));

      if (ncount==10)  return (result);

    } else break;

  }

  return result;

}

uint32_t *WStackAddrs = NULL;

uint32_t *WStackBuffer;

unsigned int WStackNCycles;

unsigned int WStackMaxCycles=100000;

CVAddressModifier *WStackAMs;

CVDataWidth *WStackDWs;

CVErrorCodes *WStackECs;

uint32_t *RStackAddrs =NULL;

unsigned int RStackNCycles;

unsigned int RStackMaxCycles=100000;

CVAddressModifier *RStackAMs;

CVDataWidth *RStackDWs;

CVErrorCodes *RStackECs;

short CAEN_VME_appendread(unsigned long Address, void *Data, CVAddressModifier AM, CVDataWidth DW) {

  if (RStackNCycles<RStackMaxCycles) {

    RStackAddrs[RStackNCycles]  = Address;

    RStackAMs[RStackNCycles]    = AM;

    RStackDWs[RStackNCycles]    = DW;

    //int i=RStackNCycles;

    //printf("AppendRead %d ADDR= 0x%0X AM= 0x%0X DW= 0x%0X \n", i,RStackAddrs[i],RStackAMs[i], RStackDWs[i]);

    RStackNCycles++;

  } else {

    printf("Increase DataBuffer RStackMaxCycles =%d xx\n", RStackMaxCycles);

  }

  return RStackNCycles;

}

short CAEN_VME_appendwrite(unsigned long Address, void *Data, CVAddressModifier AM, CVDataWidth DW) {

  if (WStackNCycles<WStackMaxCycles) {

    WStackAddrs[WStackNCycles]  = Address;

    WStackBuffer[WStackNCycles] = *((uint32_t *) Data);

    WStackAMs[WStackNCycles]    = AM;

    WStackDWs[WStackNCycles]    = DW;

    WStackNCycles++;

  } else {

    printf("Increase DataBuffer WStackMaxCycles =%d xx\n", WStackMaxCycles);

  }

  return 0;

}

short CAEN_VME_MultiReadReset() {

  RStackNCycles=0;

  if (RStackAddrs!=NULL) return 0;

  RStackAddrs = (uint32_t *) malloc( RStackMaxCycles*sizeof(uint32_t));

  RStackAMs  = (CVAddressModifier *) malloc(RStackMaxCycles*sizeof(CVAddressModifier));

  RStackDWs = (CVDataWidth *) malloc(RStackMaxCycles*sizeof(CVDataWidth));

  RStackECs = (CVErrorCodes *) malloc(RStackMaxCycles*sizeof(CVErrorCodes));

  return 0;

}

short CAEN_VME_MultiWriteReset() {

  WStackNCycles=0;

  if (WStackAddrs!=NULL) return 0;

  WStackBuffer = (uint32_t *) malloc( WStackMaxCycles*sizeof(uint32_t));

  WStackAddrs = (uint32_t *) malloc( WStackMaxCycles*sizeof(uint32_t));

  WStackAMs  = (CVAddressModifier *) malloc(WStackMaxCycles*sizeof(CVAddressModifier));

  WStackDWs = (CVDataWidth *) malloc(WStackMaxCycles*sizeof(CVDataWidth));

  WStackECs = (CVErrorCodes *) malloc(WStackMaxCycles*sizeof(CVErrorCodes));

  return 0;

}

short CAEN_VME_MultiReadExecute(long Handle, uint32_t *  Data) {

  //printf("len=%d\n",RStackNCycles);

  int i=0;

  CVErrorCodes result =CAENVME_MultiRead(Handle, RStackAddrs,  Data,  RStackNCycles, RStackAMs, RStackDWs, RStackECs);

  if (result !=cvSuccess ) {

    VMEerrors++;

    printf("CAENVME_MultiRead at 0x%0X failed!  err=%s RStackNCycles=%d\n", RStackAddrs[0], CAENVME_DecodeError(result), RStackNCycles);

    for (i=0; i<RStackNCycles; i++) {

      if (RStackECs[i]!=cvSuccess ) printf("%d ADDR= 0x%0X AM= 0x%0X DW= 0x%0X  failed!  err=%s\n", i,RStackAddrs[i],RStackAMs[i], RStackDWs[i], CAENVME_DecodeError(RStackECs[i]) );

    }

    exit(result);

  }

  return  RStackNCycles;

}

short CAEN_VME_MultiWriteExecute(long Handle) {

  int i=0;

  CVErrorCodes result =CAENVME_MultiWrite(Handle, WStackAddrs, WStackBuffer,  WStackNCycles, WStackAMs, WStackDWs, WStackECs);

  if (result !=cvSuccess ) {

    printf("CAENVME_MultiWrite at 0x%0X failed!  err=%s WStackNCycles=%d\n", WStackAddrs[0], CAENVME_DecodeError(result), WStackNCycles);

    for (i=0; i<WStackNCycles; i++) {

      if (WStackECs[i]!=cvSuccess )

        printf("%d ADDR= 0x%0X AM= 0x%0X DW= 0x%0X  data= 0x%0X  failed!  err=%s\n", i,WStackAddrs[i],WStackAMs[i], WStackDWs[i],  WStackBuffer[i], CAENVME_DecodeError(WStackECs[i]) );

    }

    exit(result);

  }

  return  WStackNCycles;

}

short __stdcall CAEN_VME_R( uint16_t AddressModifier, uint16_t DataWidth,  uint32_t VME_Address, uint32_t *Data) {

  return CAEN_VME_read( CAEN_udev,   VME_Address, (void *)Data,  (CVAddressModifier) AddressModifier, (CVDataWidth) DataWidth);

}

short __stdcall CAEN_VME_W( uint16_t AddressModifier, uint16_t DataWidth,  uint32_t VME_Address, uint32_t Data) {

  return CAEN_VME_write( CAEN_udev,   VME_Address, &Data,  (CVAddressModifier) AddressModifier, (CVDataWidth) DataWidth);

}

short __stdcall CAEN_VME_MW( uint16_t AM, uint16_t DW, uint32_t VME_Address, uint32_t Data) {

  return CAEN_VME_appendwrite(  VME_Address, &Data ,(CVAddressModifier) AM , (CVDataWidth) DW) ;

}

short __stdcall CAEN_VME_MWRST( void ) {

  return CAEN_VME_MultiWriteReset();

}

short __stdcall CAEN_VME_MWEXEC( void ) {

  return CAEN_VME_MultiWriteExecute(CAEN_udev);

}

short __stdcall CAEN_VME_MR( uint16_t AM, uint16_t DW, uint32_t VME_Address, uint32_t *Data) {

  return   CAEN_VME_appendread(  VME_Address, Data ,(CVAddressModifier) AM , (CVDataWidth) DW) ;

}

short __stdcall CAEN_VME_MRRST( void ) {

  return CAEN_VME_MultiReadReset();

}

short __stdcall CAEN_VME_MREXEC(  uint32_t *Data  ) {

  return CAEN_VME_MultiReadExecute(CAEN_udev, Data);

}