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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/mman.h>
#include <errno.h>
#include <ctype.h>
#include <time.h>
#include <sys/time.h>
#include <sys/stat.h>
#include <signal.h>
#include <zlib.h>

#include "CAENV965_DEF.h"
#include "VmUsbStack.h"

#include "vme.h"

#include "daq.h"

#define VERSION 1.0
#define TIMEOUT 3

 
/* VME modules */

#define CAEN_V792      0x340000  // IJS V792
#define CAEN_V792_1    0x530000  // FMF1 V792
#define CAEN_V792_2    0x630000  // FMF2 V792
#define CAEN_V965      0x350000  // IJS  V965
int addr[3]={CAEN_V792,CAEN_V792_1,CAEN_V965  };
int nadc=3;

int gPedestal = 255;

#define BUFF_L 2048
static  int stackwrite[10000];
static  int stackdata[10000],stackdump[27000];


/************************************************/
int weight_while(int num)
{
  int i, tmp;

  for ( i =0; i <num; i++ ) tmp = 0;
  return 0;
}
#define WWHILE weight_while(0)

#define TRUE 1
#define FALSE 0

int timer_out;
struct sigaction oact;
void timerast (int signumber)
{
 timer_out = TRUE;
 fprintf(stderr,"TIMEOUT !!!\n");
}

void tmlnk (int tout)
{
 timer_out = FALSE;
 struct sigaction act;
 struct itimerval tdelay;

 act.sa_handler = timerast;
 sigemptyset (&act.sa_mask);
 act.sa_flags = 0;

 tdelay.it_value.tv_sec = tout / 100;
 tdelay.it_value.tv_usec = 10000 * (tout % 100);
 tdelay.it_interval.tv_sec = 0;
 tdelay.it_interval.tv_usec = 0;

 if (sigaction (SIGALRM, &act, &oact) < 0)
 {
   perror ("sigaction(tmlnk)");
   exit (EXIT_FAILURE);
 }
 if (setitimer (ITIMER_REAL, &tdelay, NULL) < 0)
 {
   perror ("setitimer(tmlnk)");
   exit (EXIT_FAILURE);
 }
}

void tmulk ()
{
 struct itimerval tdelay;

 tdelay.it_value.tv_sec = 0;
 tdelay.it_value.tv_usec = 0;
 tdelay.it_interval.tv_sec = 0;
 tdelay.it_interval.tv_usec = 0;

 if (setitimer (ITIMER_REAL, &tdelay, NULL) < 0)
 {
   perror ("setitimer(tmulk)");
   exit (EXIT_FAILURE);
 }
 if (sigaction (SIGALRM, &oact, NULL) < 0)
 {
   perror ("sigaction(tmulk)");
   exit (EXIT_FAILURE);
 }
}

int fexist( char * path){
   struct stat sbuf;
   int res;
   if(!path || !*path) return 0;
   res=stat(path,&sbuf);
   if (res){
       if (errno==ENOENT) {
           return 0;
       } else {
           return -1;
       }
   }
   return 1;
}




int daq::init(){

  xxusb_register_write(udev,1,0x0); // Stop DAQ mode
  while (xxusb_usbfifo_read(udev,(int *) stackdump,BUFF_L,100)>0); 


  int rate=1000;
  int i=80000000/rate-40; // 80 MHz
  if (i<72) i=72; 
        // Set DGG channel A as a pulser, output on O1,
        //     with delay =500 x 12.5ns,
        //     and width =  500 x 12.5ns,
        //     not latching or inverting
  //  VME_DGG(udev,0,6,0,24000,6000,0,0);
  VME_DGG(udev,0,6,0,i,40,0,0);
        // Set DGG channel B to trigger on NIM1, output on O2,
        //     with delay =200 x 12.5ns,
        //     and width =  200 x 12.5ns,
        //     not latching or inverting
        VME_DGG(udev,1,1,1,0,10,0,1);
 

// INIT stackdata
        int fPedestal=gPedestal;
         printf("CAEN V965 Pedestal set to %d\n", fPedestal);
        if (fInit != NULL ) delete fInit;
        fInit=new VmUsbStack();

        for (int i=0;i<nadc;i++){
                fInit->WriteA24D16( addr[i] + CAENV965_CRN , 0x0);
                fInit->WriteA24D16( addr[i] + CAENV965_GEO , i);
                fInit->ReadA24D16(addr[i] + CAENV965_GEO);
    for (int j=0;j<32;j++){
                   fInit->WriteA24D16(addr[i] + CAENV965_THM + 0x02*j, fThreshold[j+i*32]); // threshold/kill for 32 channels
    }
                fInit->WriteA24D16( addr[i] + CAENV965_BS1, 0x80 ); // soft reset
                fInit->WriteA24D16( addr[i] + CAENV965_BC1, 0x80 ); // soft reset
                fInit->WriteA24D16( addr[i] + CAENV965_PED, fPedestal ); // pedestal
                fInit->WriteA24D16( addr[i] + CAENV965_BS2,0x5000); 
                fInit->WriteA24D16( addr[i] + CAENV965_BS2,0x4);  // clear module
                fInit->WriteA24D16( addr[i] + CAENV965_BC2,0x4);
        }
        fInit->Marker(0xFAFC);
        
//      fInit->Print(); 
        
        
        // READOUT stackdata
        if (fStack != NULL ) delete fStack; 
        fStack=new VmUsbStack();
        fStack->Marker(0xFFAB); 
        //fStack->ConditionalRead(addr[i] + CAENV965_SR1,0x1);        // TRG wait : loop until bit 0 is on
        // fStack->RepeatRead( CMD_A24, CMD_D32, addr[i] + CAENV965_OB,34,0);  // repead read
        //fStack->ConditionalRead(addr[i] + CAENV965_OB ,0x4000000) ; // loop until bit 26 is on, read data 
  for (int j=0;j<36;j++) fStack->ReadA24D32(addr[0] + CAENV965_OB); 
  for (int j=0;j<36;j++) fStack->ReadA24D32(addr[1] + CAENV965_OB);
  for (int j=0;j<8;j++) fStack->ReadA24D32(addr[2] + CAENV965_OB);// 4 channels connected
        fStack->Marker(0xFAFB); 

        for (int i=0;i<nadc;i++){
                fStack->WriteA24D16(addr[i] + CAENV965_BS2,0x4);  // clear module
                fStack->WriteA24D16(addr[i] + CAENV965_BC2,0x4);  
        }

        //fStack->Print();

 VME_LED_settings(udev, 0,0,0,0); // Set Yellow LED to light with with USB out buffer not empty
 VME_LED_settings(udev, 1,1,0,0); // Set Red LED to light with NIM1
 VME_LED_settings(udev,2,0,0,0); // Set Green LED to light when stack is not empty
 
 Uint32_t  vmereg;
 VME_register_read(udev,0x00,&vmereg);
 printf("VMUSB Firmware ID -> 0x%08X\n",vmereg);
 
 VME_register_read(udev,0x04,&vmereg);
 printf("VMUSB Global Mode -> 0x%08X\n",vmereg);

 vmereg=(vmereg&0xF000)|0x0004;
 VME_register_write(udev,0x04,vmereg);
 VME_register_write(udev,0x08,0x00000080);
 VME_register_write(udev,0x28,0x0);
 VME_register_write(udev,0x2C,0x0);
 VME_register_write(udev,0x30,0x0);
 VME_register_write(udev,0x34,0x0);
 VME_register_write(udev,0x3C,0x000);
 
 int nb = fInit->Get(10000,stackdata);
 int ret= xxusb_stack_execute(udev,(Uint32_t *)stackdata);
 printf("Init::%d ret=%d\n",nb,ret);
 if (ret>0) for (int i=0;i<ret/2;i++) printf ("stackdata=0x%08X\n",stackdata[i]); 
 
 int nb0= fStack->Get(10000,&stackwrite[0]);
 if (nb0>768) {
   fprintf(stderr,"nb0=%d > 768 error xxusb_stack_write\n", nb0);
   exit(-1);
 }
 nb =xxusb_stack_write(udev,0x2,(Uint32_t *) stackwrite);
 nb0=xxusb_stack_read(udev,0x2,(Uint32_t *) stackdata);
 for (int i=0;i<stackwrite[0]+1;i++){
   if (stackdata[i]!=stackwrite[i]) printf("%d %d init err %x %x\n",nb,nb0,stackwrite[i], stackdata[i]);
 }

 if (fMode==2) xxusb_register_write(udev,1,0x1); // Start DAQ mode
 
 printf("daq::init() \n");
 return 0;
}

int daq::connect(){
    VME_START(NULL);
    printf("daq::connect()\n");
    return 0;
}
  
int daq::disconnect(){ 
  /* zakljuci */
  VME_STOP();
  printf("daq::disconnect()\n");
  return 0;
}

int daq:: clear(){    
   return 0;
}

inline int module_header(int recid,Uint32_t *data,int len){
   data[0] = recid;
   data[1] = (len >0)? len : 0 ;
   return data[1]+2;
}


int daq::event(unsigned int *data, int maxn, int *ctr, int print){
   int tout=200; /* 1/100 of a second */
   const int lsize=sizeof(unsigned Uint32_t);  


   ctr[0]++;
   ctr[1]++; 
   
   int count=0;

         switch (fMode){
         case 0:// normal calls
                 {
                         unsigned short clr= 0x4;
                         unsigned int status=0; 
                         Uint32_t mdata;
                         
                         for (int i=0;i<2;i++){
                                 // wait for trg
                                 tmlnk (tout);
                                 do VME_A24D16_R( addr[i] + CAENV965_SR1, &status); while ( (status&0x1)==0 && timer_out==0 );
                                 tmulk();
                                 // readout data
                                 if (timer_out) return 0;
                                 int len=0; 
                                 
                                 do {
                                         VME_A24D32_R(addr[i]  + CAENV965_OB, &mdata);
                                         mdata=data[count++];
                                         len++;
                                 } while  ( (mdata & 0x4000000)==0 && timer_out==0) ; // bit 26 EOB or not valid datum
                                 // clear
                                 VME_A24D16_W( addr[i] + CAENV965_BS2, &clr);
                                 VME_A24D16_W( addr[i] + CAENV965_BC2, &clr); 
                                 
                                 if (count+2<maxn) {
                                         if (print)  printf("V965 %3d\n",len); 
                                         count+=module_header(0x130+i,&data[count],len); 
                                         ctr[2]++;
                                         ctr[3]+=len;
                                 }
                         
                                 timer_out=0; 
                         } 
                 }
                 break;
         case 1:// stack execute
                 {
                         fStack->Get(10000,(int *)data);
                         int ret=xxusb_stack_execute(udev,(Uint32_t *) data); //The first element of the array is the number of bytes.
       if (ret< 0 ) {
                                 printf ("xxusb_stack_execute error err=%d\n",ret);     \
                                 count = 0;
                         } else count= ret/lsize; 

                 }
                 break;
         case 2:// stack load
                 {
                         int ret=xxusb_usbfifo_read(udev,(int *) data,BUFF_L,100);
                         if (ret< 0 ) {
                                 if (ret!=-110) {
                                    printf ("xxusb_usbfifo_read error err=%d\n",ret);
                                    end();
                                    init();
                                 }      
                                 count = 0;
                         } else {
                                 if (0 && print && ret>0) {
                                         for (int i=0;i<100;i++) {
                                                 printf ("%4d fifodata=0x%08X\n",i, data[i]);
             if (data[i]==0xFAFB) break;
                                         } 
                                         /*
   
   0 fifodata=0x0000000D
   1 fifodata=0x00000049
   2 fifodata=0x0000FFAB
   3 fifodata=0x00002000
   4 fifodata=0x00000200
   5 fifodata=0x00004141
   6 fifodata=0x00000000
   7 fifodata=0x00004057
   8 fifodata=0x00000010
   9 fifodata=0x00004052
  10 fifodata=0x00000001
  11 fifodata=0x0000405C
  12 fifodata=0x00000011
  13 fifodata=0x0000405D
  14 fifodata=0x00000002
  15 fifodata=0x0000405E
  16 fifodata=0x00000012
  17 fifodata=0x0000401C
  18 fifodata=0x00000003
  19 fifodata=0x0000402F
  20 fifodata=0x00000013
  21 fifodata=0x00004024
  22 fifodata=0x00000004
  23 fifodata=0x00004076
  24 fifodata=0x00000014
  25 fifodata=0x0000412F
  26 fifodata=0x00000005
  27 fifodata=0x0000404C
  28 fifodata=0x00000015
  29 fifodata=0x00004132
  30 fifodata=0x00000006
  31 fifodata=0x00004044
  32 fifodata=0x00000016
  33 fifodata=0x0000404A
  34 fifodata=0x00000007
  35 fifodata=0x0000409B
  36 fifodata=0x00000017
  37 fifodata=0x000040F1
  38 fifodata=0x00000008
  39 fifodata=0x00004087
  40 fifodata=0x00000018
  41 fifodata=0x00004173
  42 fifodata=0x00000009
  43 fifodata=0x0000404C
  44 fifodata=0x00000019
  45 fifodata=0x0000406C
  46 fifodata=0x0000000A
  47 fifodata=0x00004070
  48 fifodata=0x0000001A
  49 fifodata=0x0000406E
  50 fifodata=0x0000000B
  51 fifodata=0x00004014
  52 fifodata=0x0000001B
  53 fifodata=0x000040B7
  54 fifodata=0x0000000C
  55 fifodata=0x000040A9
  56 fifodata=0x0000001C
  57 fifodata=0x00004048
  58 fifodata=0x0000000D
  59 fifodata=0x00004118
  60 fifodata=0x0000001D
  61 fifodata=0x0000409D
  62 fifodata=0x0000000E
  63 fifodata=0x0000405B
  64 fifodata=0x0000001E
  65 fifodata=0x00004285
  66 fifodata=0x0000000F
  67 fifodata=0x00004159
  68 fifodata=0x0000001F
  69 fifodata=0x00000035
  70 fifodata=0x00000400
  71 fifodata=0x00000035
  72 fifodata=0x00000600
  73 fifodata=0x00000035
  74 fifodata=0x0000FAFB


                                         */
                                 }
                                 if (print) printf("------------------ret=%d data[0]=%d\n",ret,(int)data[0]);
                                 count= ret/lsize;
                                 ctr[2]+=data[0];
                                 ctr[3]+=count;
                         }
                 } 
                 break;
         }
   return count*lsize;
}

int daq::end(){

         xxusb_register_write(udev,1,0x0); // Stop DAQ mode
         while (xxusb_usbfifo_read(udev,(int *) stackdata,BUFF_L,30)>0);  
   printf("daq::end()\n");
  return 0;
}

daq::daq(){
  fMode = 2;
  fPedestal=255;
  for (int i=0;i<128;i++){ 
     if (i<72) fThreshold.push_back(0);       
     else      fThreshold.push_back(0x1<<8); // samo 4 kanali na zadnjem modulu so enablani
  }
  fThresholdEnable=0;
  fStop=0;
  fInit=NULL;
  fStack=NULL;
  connect();
}

daq::~daq(){
disconnect();
}

#ifdef MAIN
/* ------------------- CatchSig ----------------- */
int ctrlcflag=0;

void SigInt (int sig)
{
    ctrlcflag = 1;
    timer_out=1;
}

int main (int argc, char **argv){
   // intercept routine
   if (signal (SIGINT, SigInt) == SIG_ERR) {
        perror ("sigignore");
   }
 
   // print welcome message
  time_t t,told, tstart, tstop;
  time(&t);
  fprintf(stdout,"#############################################\n");
  fprintf(stdout,"Program %s version %2.1f\n",argv[0], VERSION);
  fprintf(stdout,"Compiled on %s %s\n",__DATE__, __TIME__);
  fprintf(stdout,"Runtime  %s \n",ctime(&t));
  fprintf(stdout,"#############################################\n");
 
 
  int neve=-1;
  char cfname[100]="test.dat";
  char *fname=cfname;
  char *fpedname=NULL;
 
#define BSIZE 10000
  Uint32_t data[10000];
 

  daq *d= new daq();
  int c;
 
  while ((c = getopt (argc, argv, "p:n:t:o:")) != -1)
    switch (c)
      {
      case 'o':
        sprintf(fname ,"%s", optarg);
        if (fexist(fname)==1){
          fprintf(stdout,"Error !\n");
          fprintf(stdout,"File %s already exist. Appending ....\n",fname);
          //fprintf(stdout,"Remove the file and restart !!!\n");
          //exit(0);
        } 
        break;       // input file
      case 'n':
        neve  = atoi(optarg); // negative argument time ( in s )limited event loop
        break;
      case 't':
        {
          
          sprintf(fpedname ,"%s", optarg);
          FILE *fped=fopen(fpedname,"r");
          int j=0;   
          int ndim=400;
          char line[ndim];   
          int val=0;
          while (fgets(line,ndim,fped)!=NULL){ 
            sscanf(line,"%d",&val);
            d->fThreshold[j++]=val;
          }
          d->fThresholdEnable=1;
          //fclose(fped);
          fclose(fped);
          break;
        }
      case 'p':
        gPedestal  = atoi(optarg); // injected charge to the qdc
        break;
      }
  
  if (argc==1) {
    fprintf(stdout,"Usage: %s -o [filename] -n [number of events] -t [thresholdfile] -p <qdc inject charge>\n negative number of events = acq time in seconds\n",argv[0]);
    exit(-1);
  }
  //FILE *fp=fopen(fname,"a");
  gzFile fp=gzopen(fname,"a");
  
  d->init();
  d->clear();
  
  int hdr[4]={2}; // recid od run 11 naprej
  int i=0;
  int ntotal=0;
  int counters[30]={0,0,0,0,0, 0,0,0,0,0,0,0};
  char names[10][20]={"TRG","CAEN V965"};
  time(&t);
  tstart=t;
  tstop=tstart+360000;
  if (neve<-1) {
    tstop=tstart-neve;
    neve=-1;
  }
  for (i=0;i!=neve && !ctrlcflag && t<tstop;i++){ 
     time(&t);
     if (t!=told ) printf("%d in %2.2f min daq::event() %s\n",i, (double)(t-tstart)/60., ctime(&t)); 
     int nb=d->event(data,BSIZE, counters,t!=told);
     if (nb>0){
      // zapis v datoteko   
      hdr[1]=nb+4*sizeof(int);
      hdr[2]=time(NULL);
      hdr[3]=i;
   
      //fwrite(hdr,   sizeof(int),4 , fp); 
      gzwrite(fp, hdr,   sizeof(int)*4); //gzip
     // recid=1 do runa 10.  ntotal += fwrite(data,   sizeof(int),nb, fp);
      //ntotal += fwrite(data, 1,nb, fp);
      ntotal += gzwrite(fp, data, nb);
      told=t;
     } else i--;
  } 

  d->end();
  delete d;
  printf("Number of Events: %d\n",i);
  if (ctrlcflag) printf("User Program termination CTRL-C\n");
  if (t>tstop  ) printf("Timeout termination tstart# t>tstop: %d# %d >%d\n",(int)t, (int)tstart, (int) tstop);
  

  //fclose(fp);  
  gzclose(fp);  
  fprintf(stdout,"%d bytes written to %s\nCounts:\n", (int) (ntotal*sizeof(int)),fname);
  for (i=0;i<2;i++) fprintf(stdout,"%s\t%d\t%d\n",names[i],counters[2*i],counters[2*i+1]) ;


  return 0;
}
#endif