5 Utility to simulate a DATE raw data stream using a given set of raw
6 data files and a configuration file.
10 V01.00 4/05/2004 RD Created
11 V01.01 25/10/2005 RD Support added for timestamp
12 V01.02 4/04/2006 RD Support for CDH
13 V01.03 24/05/2006 RD Added "Direct disk access" option
26 #define DESCRIPTION "DATE raw data stream simulator"
30 char fileHandlerIdent[]= "@(#)""" __FILE__ """: """ DESCRIPTION \
32 """ compiled """ __DATE__ """ """ __TIME__;
34 #define DBG_BASE if ( debug > 0 )
35 #define DBG_DETAILED if ( debug > 1 )
36 #define DBG_VERBOSE if ( debug > 2 )
39 # define TRUE (0 == 0)
42 # define FALSE (0 == 1)
48 typedef enum { unknown, ldc, gdc } workingAsType;
49 typedef enum { collider, fixedTarget } workingModeType;
50 workingAsType workingAs;
51 workingModeType workingMode;
52 struct ldcDescriptorStruct {
54 struct ldcDescriptorStruct *next;
55 } *ldcsHead, *ldcsTail;
56 void *eventsHead, *eventsTail;
57 struct gdcEventDescriptorStruct {
58 struct ldcEventDescriptorStruct *head;
59 struct ldcEventDescriptorStruct *tail;
60 struct gdcEventDescriptorStruct *next;
61 struct eventHeaderStruct header;
64 struct ldcEventDescriptorStruct {
65 struct equipmentEventDescriptorStruct *head;
66 struct equipmentEventDescriptorStruct *tail;
67 struct ldcEventDescriptorStruct *next;
69 struct eventHeaderStruct header;
72 struct equipmentEventDescriptorStruct {
73 struct equipmentEventDescriptorStruct *next;
75 struct payloadDescriptorStruct *payload;
76 struct equipmentHeaderStruct header;
78 struct payloadDescriptorStruct {
79 struct payloadDescriptorStruct *next;
84 } *payloadsHead, *payloadsTail;
86 eventGdcIdType currGdcId;
87 eventLdcIdType currLdcId;
88 equipmentIdType currEquipmentId;
94 eventIdType oneEventDelta;
95 eventIdType currEventId;
99 struct commonDataHeaderStruct *cdhRef = NULL;
101 void dumpPayload( const struct payloadDescriptorStruct *p ) {
106 if ( p->data != NULL ) {
107 for ( i = 0, c = (char *)p->data, printable = TRUE;
108 printable && i != p->size;
110 printable = isascii( *c );
113 for ( i = 0, c = (char *)p->data; i != p->size; c++, i++ ) {
119 if ( *c != '\n' ) printf( "\"\n" );
122 for ( i = 0, v = (long32 *)p->data;
125 if ( i % (4*8) == 0 ) {
126 if ( i != 0 ) printf( "\n" );
129 printf( "%08x ", *v );
135 while ( i != p->size ) {
136 printf( "%02x ", *((char *)p->data + p->size - j - 1) & 0xff );
144 } /* End of dumpPayload */
147 assert( workingAs == ldc || workingAs == gdc );
148 if ( eventsHead != NULL ) {
149 printf( "Events:\n" );
150 if ( workingAs == gdc ) {
151 struct gdcEventDescriptorStruct *gdc;
153 for ( gdc = (struct gdcEventDescriptorStruct *)eventsHead;
156 struct ldcEventDescriptorStruct *ldc;
158 printf( " GDC (%p)\n", gdc );
159 for ( ldc = gdc->head; ldc != NULL; ldc = ldc->next ) {
160 struct equipmentEventDescriptorStruct *eq;
162 printf( " LDC (%p): %d\n", ldc, ldc->id );
163 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
164 printf( " EQUIPMENT (%p): %d PAYLOAD (%p):",
169 printf( "\"%s\" (%d bytes)\n",
170 eq->payload->fileName,
172 dumpPayload( eq->payload );
177 if ( workingAs == ldc ) {
178 struct ldcEventDescriptorStruct *ldc;
180 for ( ldc = (struct ldcEventDescriptorStruct *)eventsHead;
183 struct equipmentEventDescriptorStruct *eq;
186 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
187 printf( " EQUIPMENT (%p): %d PAYLOAD (%p):",
192 printf( "\"%s\" (%d bytes)\n",
193 eq->payload->fileName,
195 dumpPayload( eq->payload );
200 printf( "Events: EMPTY\n" );
202 } /* End of dumpEvents */
204 void getLine( char *line, const int maxSize ) {
208 for ( read = 0; !feof( stdin ) && !ferror( stdin ) && read != maxSize; read++ ) {
209 if ( (line[read] = getchar()) == '\n' ) break;
211 if ( ferror( stdin ) ) {
213 "%s: failed to read configuration input errno:%d ",
218 if ( feof( stdin ) ) read--;
219 if ( read == maxSize && line[read] != '\n' ) {
221 "%s: Input line # %d too long (%d chars max)\n",
222 myName, lineNo, maxSize-1 );
227 if ( !( read == 0 && feof( stdin ) ) ) {
228 printf( "%d) [%3d] \"%s\"", lineNo, read, line );
231 for ( c = 0; c != read; c++ ) {
232 if ( line[c] == '#' ) {
239 printf( " => \"%s\"", line );
241 if ( feof( stdin ) ) printf( "<<< EOF >>>" );
242 if ( ferror( stdin ) ) printf( "<<< FERROR >>>" );
245 } /* End of getLine */
247 void handleLdc( eventLdcIdType ldcId ) {
248 struct ldcDescriptorStruct *ldc;
250 if ( ldcsHead != NULL ) {
251 for ( ldc = ldcsHead; ldc != NULL; ldc = ldc->next ) {
252 if ( ldc->id == ldcId ) {
257 if ( (ldc = (struct ldcDescriptorStruct *)malloc( sizeof( *ldc ) )) == NULL ) {
259 "%s: Failed to malloc for %d bytes (struct ldcDescriptorStruct)\n",
260 myName, (int)sizeof( *ldc ) );
265 if ( ldcsHead == NULL ) {
266 ldcsHead = ldcsTail = ldc;
268 ldcsTail->next = ldc;
272 } /* End of handleLdc */
274 void createNewEvent() {
275 assert( workingAs == ldc || workingAs == gdc );
276 if ( workingAs == ldc ) {
277 struct ldcEventDescriptorStruct *p;
279 if ( (p = (struct ldcEventDescriptorStruct *)malloc( sizeof( *p ) ))
282 "%s: failed to malloc for %d bytes (createNewEvent: struct ldcEventDescriptorStruct)",
283 myName, (int)sizeof( *p ) );
288 p->head = p->tail = NULL;
291 if ( eventsHead == NULL ) {
292 eventsHead = eventsTail = p;
294 struct ldcEventDescriptorStruct *q =
295 (struct ldcEventDescriptorStruct *)eventsTail;
301 } else if ( workingAs == gdc ) {
302 struct gdcEventDescriptorStruct *p;
304 if ( (p = (struct gdcEventDescriptorStruct *)malloc( sizeof( *p ) ))
307 "%s: failed to malloc for %d bytes (createNewEvent: struct gdcEventDescriptorStruct)",
308 myName, (int)sizeof( *p ) );
314 p->head = p->tail = NULL;
316 if ( eventsHead == NULL ) {
317 eventsHead = eventsTail = p;
319 struct gdcEventDescriptorStruct *q =
320 (struct gdcEventDescriptorStruct *)eventsTail;
326 } /* End of createNewEvent */
328 void createNewLdcEvent() {
329 struct gdcEventDescriptorStruct *gdcDesc;
330 struct ldcEventDescriptorStruct *p;
332 if ( (p = (struct ldcEventDescriptorStruct *)malloc( sizeof( *p ) ))
335 "%s: failed to malloc for %d bytes (createNewLdcEvent: struct ldcEventDescriptorStruct)",
336 myName, (int)sizeof( *p ) );
341 p->head = p->tail = NULL;
343 gdcDesc = (struct gdcEventDescriptorStruct *)eventsTail;
344 if ( gdcDesc->head == NULL ) {
345 gdcDesc->head = gdcDesc->tail = p;
347 gdcDesc->tail->next = p;
351 } /* End of createNewLdcEvent */
353 void loadBuffer( struct payloadDescriptorStruct * const payload ) {
357 if ( (f = fopen( payload->fileName, "r" )) == NULL ) {
359 "%s: line:%d payload file \"%s\" not found or not readable, errno:%d. ",
364 perror( "System-dependent error " );
367 if ( (payload->data = malloc( payload->size )) == NULL ) {
369 "%s: line:%d Failed to malloc for payload file \"%s\" size:%d errno:%d ",
375 perror( "System-dependent status " );
378 if ( (bytesRead = fread( payload->data, payload->fileSize, 1, f )) != 1 ) {
380 "%s: line:%d Failed to read payload file \"%s\" size:%d requested:1 got:%d feof:%s ferror:%s errno:%d ",
386 feof(f) ? "TRUE" : "false",
387 ferror(f) ? "TRUE" : "false",
389 perror( "System-dependent status " );
393 if ( payload->size != payload->fileSize ) {
394 memset( (char *)payload->data + payload->fileSize,
396 payload->size - payload->fileSize );
398 } /* End of loadBuffer */
400 void unloadBuffer( struct payloadDescriptorStruct * const payload ) {
401 if ( payload->data != NULL ) {
402 free( payload->data );
403 payload->data = NULL;
405 } /* End of unloadBuffer */
407 void unloadAllBuffers() {
408 struct payloadDescriptorStruct *payload;
410 for ( payload = payloadsHead; payload != NULL; payload = payload->next ) {
411 unloadBuffer( payload );
413 } /* End of unloadAllBuffers */
415 void loadPayload( const char *fileName ) {
416 struct payloadDescriptorStruct *payload;
418 for ( payload = payloadsHead; payload != NULL; payload = payload->next ) {
419 if ( strcmp( fileName, payload->fileName ) == 0 )
422 if ( payload == NULL ) {
425 if ( (payload = (struct payloadDescriptorStruct *)malloc( sizeof( *payload ) ))
428 "%s: failed to malloc for %d bytes (loadPayload/payloadDescriptorStruct)\n",
430 (int)sizeof( *payload ) );
433 if ( (payload->fileName = strdup( fileName )) == NULL ) {
435 "%s: failed to duplicate string \"%s\" (loadPaload/fileName)\n",
440 if ( (f = fopen( fileName, "r" )) == NULL ) {
442 "%s: line:%d payload file \"%s\" not found or not readable, errno:%d. ",
447 perror( "System-dependent error " );
450 if ( fseek( f, 0L, SEEK_END ) != 0 ) {
452 "%s: line:%d Failed to seek payload file \"%s\" errno:%d ",
457 perror( "System-dependent error " );
460 if ( (payload->size = ftell( f )) <= 0 ) {
462 "%s: line:%d Failed to get file \"%s\" size size:%d errno:%d ",
468 perror( "System-dependent status " );
471 payload->fileSize = payload->size;
472 while ( (payload->size & 3) != 0 ) payload->size++;
476 loadBuffer( payload );
478 payload->data = NULL;
481 payload->next = NULL;
482 if ( payloadsHead == NULL ) {
483 payloadsHead = payloadsTail = payload;
485 payloadsTail->next = payload;
486 payloadsTail = payload;
491 printf( "%d) Payload \"%s\" loaded at %p\n",
497 strncmp(fileName,"TRG_",4) != 0 ) {
498 struct commonDataHeaderStruct *cdh =
499 (struct commonDataHeaderStruct *)payload->data;
501 printf( " CDH: blockLenght:%d=0x%08x ",
502 cdh->cdhBlockLength, cdh->cdhBlockLength );
503 if ( cdh->cdhBlockLength < sizeof( *cdh ) ) {
504 printf( "TOO SMALL (minimum:%ld=0x%08lx)\n",
505 (unsigned long)sizeof( *cdh ),
506 (unsigned long)sizeof( *cdh ) );
508 printf( "version:%d=0x%x ", cdh->cdhVersion, cdh->cdhVersion );
509 if ( cdh->cdhVersion != CDH_VERSION ) {
510 printf( "EXPECTED:%d=%x (decoding may be inaccurate) ",
511 CDH_VERSION, CDH_VERSION );
514 printf( "L1TriggerMessage:0x%x", cdh->cdhL1TriggerMessage );
515 if ( cdh->cdhL1TriggerMessage != 0 ) {
516 for ( b = 0, n = 0; b != 10; b++ ) {
517 if ( (cdh->cdhL1TriggerMessage & (1<<b)) != 0 ) {
518 if ( n++ != 0 )printf( "+" );
520 case 0: printf( "L1SwC" ); break;
521 case 1: printf( "ESR" ); break;
522 case 2: printf( "RoC1" ); break;
523 case 3: printf( "RoC2" ); break;
524 case 4: printf( "RoC3" ); break;
525 case 5: printf( "RoC4" ); break;
526 case 6: printf( "ClT" ); break;
527 default: printf( "spare %d", b+14 );
534 if ( cdh->cdhMBZ0 != 0 )
535 printf( "MBZ0:0x%x ",
540 printf( "EventId2(orbit):%d=0x%x ",
541 cdh->cdhEventId2, cdh->cdhEventId2 );
542 printf( "EventId1(bunchCrossing):%d=0x%x ",
543 cdh->cdhEventId1, cdh->cdhEventId1 );
547 if ( cdh->cdhMBZ1 != 0 )
548 printf( "MBZ1:0x%x ",
550 printf( "BlockAttributes:0x%x",
551 cdh->cdhBlockAttributes );
552 if ( cdh->cdhBlockAttributes != 0 ) {
554 for ( b = 0, n = 0; b != 8; b++ ) {
555 if ( (cdh->cdhBlockAttributes & (1<<b)) != 0 ) {
564 printf( "ParticipatingSubDetectors:0x%x ",
565 cdh->cdhParticipatingSubDetectors );
569 if ( cdh->cdhMBZ2 != 0 )
570 printf( "MBZ2:0x%x ",
572 printf( "Status/Error:0x%x", cdh->cdhStatusErrorBits );
573 if ( cdh->cdhStatusErrorBits != 0 ) {
575 for ( b = 0,n = 0; b != 16; b++ ) {
576 if ( (cdh->cdhStatusErrorBits & (1<<b)) != 0 ) {
577 if ( n++ != 0 ) printf( "+" );
579 case 0: printf( "TriggerOverLapError" ); break;
580 case 1: printf( "TriggerMissingError" ); break;
581 case 2: printf( "DataParityError" ); break;
582 case 3: printf( "ControlParityError" ); break;
583 case 4: printf( "TriggerInformationUnavailable" ); break;
584 case 5: printf( "FEEError" ); break;
585 case 6: printf( "HLTDecision" ); break;
586 case 7: printf( "HLTPayload" ); break;
587 case 8: printf( "DDGPayload" ); break;
588 default: printf( "spare %d", b );
595 printf( "MiniEventId(bunchCrossing):%d=0x%x ",
596 cdh->cdhMiniEventId, cdh->cdhMiniEventId );
600 printf( "Trigger classes: 0x(%05x-%08x)",
601 cdh->cdhTriggerClassesHigh,
602 cdh->cdhTriggerClassesLow );
603 if ( cdh->cdhTriggerClassesHigh != 0
604 || cdh->cdhTriggerClassesLow != 0 ) {
606 for ( b=0, n=0; b != 32; b++ ) {
607 if ( (cdh->cdhTriggerClassesLow & (1<<b)) != 0 ) {
608 if ( n++ != 0 ) printf( "+" );
612 for ( b=0; b != 18; b++ ) {
613 if ( (cdh->cdhTriggerClassesHigh & (1<<b)) != 0 ) {
614 if ( n++ != 0 ) printf( "+" );
615 printf( "%d", b+32 );
623 if ( cdh->cdhMBZ3 != 0 ) {
624 printf( "MBZ3:0x%x ",
627 printf( "ROI:0x(%08x-%01x)", cdh->cdhRoiHigh, cdh->cdhRoiLow );
628 if ( cdh->cdhRoiHigh != 0
629 || cdh->cdhRoiLow != 0 ) {
631 for ( b=0, n=0; b != 5; b++ ) {
632 if ( (cdh->cdhRoiLow & (1<<b)) != 0 ) {
633 if ( n++ != 0 ) printf( "+" );
637 for ( b=0; b != 32; b++ ) {
638 if ( (cdh->cdhRoiHigh & (1<<b)) != 0 ) {
639 if ( n++ != 0 ) printf( "+" );
651 printf( "%d) Payload \"%s\" already loaded at %p\n",
657 currEvent->payload = payload;
658 } /* End of loadPayload */
660 void parseEquipment( char * const line ) {
661 struct equipmentEventDescriptorStruct *equipment;
662 int payloadFound = FALSE;
667 (struct equipmentEventDescriptorStruct *)malloc( sizeof( *equipment ) )) == NULL ) {
669 "%s: filed to malloc for %d bytes (parseEquipment/equipmentEventDescriptorStruct) errno:%d ",
671 (int)sizeof( *equipment ),
676 currEvent = equipment;
679 while ( (keyword = strtok_r( p, " \t", &p )) != NULL ) {
680 DBG_VERBOSE printf( "%d) Equipment - Keyword:\"%s\"\n",
683 if ( strcasecmp( "id", keyword ) == 0 ) {
686 if ( (idNum = strtok_r( p, " \t", &p )) == NULL ) {
688 "%s: line:%d EQUIPMENT declaration, ID needed",
693 if ( sscanf( idNum, "%d", &currEquipmentId ) != 1 ) {
695 "%s: line:%d EQUIPMENT declaration, numeric ID needed (%s)",
701 DBG_VERBOSE printf( "%d) EQUIPMENT - ID:%d\n",
704 } else if ( strncasecmp( "pay", keyword, 3 ) == 0 ) {
707 if ( (fileName = strtok_r( p, " \t", &p )) == NULL ) {
709 "%s line:%d Payload without filename found\n",
714 DBG_VERBOSE printf( "%d) Equipment - Payload:\"%s\"\n",
717 if ( payloadFound ) {
719 "%s line:%d Payload with multiple filenames found\n",
724 loadPayload( fileName );
728 "%s: line:%d Equipment declaration, unknown keyword \"%s\"\n",
735 if ( !payloadFound ) {
737 "%s: line:%d Equipment without payload found\n",
743 equipment->id = currEquipmentId;
744 equipment->next = NULL;
745 if ( currLdc->head == NULL ) {
746 currLdc->head = currLdc->tail = equipment;
748 currLdc->tail->next = equipment;
749 currLdc->tail = equipment;
751 } /* End of parseEquipment */
753 void parseGdc( char * const line ) {
758 while ( (keyword = strtok_r( p, " \t", &p )) != NULL ) {
759 if ( strcasecmp( "id", keyword ) == 0 ) {
762 if ( (idNum = strtok_r( p, " \t", &p )) == NULL ) {
764 "%s: line:%d GDC declaration, ID needed",
769 if ( sscanf( idNum, "%d", &currGdcId ) != 1 ) {
771 "%s: line:%d GDC declaration, numeric ID needed (%s)",
777 DBG_VERBOSE printf( "%d) GDC - ID:%d\n",
782 "%s: line:%d GDC declaration, unknown keyword \"%s\"\n",
789 } /* End of parseGdc */
791 void parseLdc( char * const line ) {
796 while ( (keyword = strtok_r( p, " \t", &p )) != NULL ) {
797 if ( strcasecmp( "id", keyword ) == 0 ) {
800 if ( (idNum = strtok_r( p, " \t", &p )) == NULL ) {
802 "%s: line:%d LDC declaration, ID needed",
807 if ( sscanf( idNum, "%d", &currLdcId ) != 1 ) {
809 "%s: line:%d LDC declaration, numeric ID needed (%s)",
815 DBG_VERBOSE printf( "%d) LDC - ID:%d\n",
820 "%s: line:%d LDC declaration, unknown keyword \"%s\"\n",
827 } /* End of parseLdc */
832 currLdcId = HOST_ID_MIN;
833 currGdcId = HOST_ID_MIN;
835 for ( lineNo = 1; !feof( stdin ); lineNo++ ) {
836 getLine( line, sizeof(line) );
837 if ( strlen(line) != 0 ) {
841 if ( (keyword = strtok_r( line, " \t", &p )) != NULL ) {
842 DBG_VERBOSE printf( "%d) Keyword:\"%s\"\n", lineNo, keyword );
843 if ( strcasecmp( "gdc", keyword ) == 0 ) {
844 if ( workingAs != gdc && workingAs != unknown ) {
846 "%s: line:%d GDC found when working in non-GDC mode (e.g. as a LDC)\n",
853 currLdcId = HOST_ID_MIN;
856 } else if ( strcasecmp( "ldc", keyword ) == 0 ) {
857 if ( workingAs != gdc && workingAs != ldc && workingAs != unknown ) {
859 "%s: line:%d LDC found when working in non-LDC/GDC mode\n",
863 if ( workingAs == unknown ) workingAs = ldc;
865 if ( workingAs == ldc ) {
870 handleLdc( currLdcId );
874 } else if ( strncasecmp( "equ", keyword, 3 ) == 0 ) {
875 if ( workingAs == unknown
876 || (workingAs == ldc && currLdc == NULL )
877 || (workingAs == gdc && currGdc == NULL ) ) {
879 "%s: line:%d Unexpected EQUIPMENT declaration (LDC or GDC needed first)\n",
888 "%s: line:%d Parse error in \"%s\" unknown keyword\n",
896 } while ( !feof( stdin ) );
900 printf( "End of parse: %d line%s found\n",
902 lineNo != 1 ? "s" : "" );
903 printf( "Working as %s\n",
904 workingAs == gdc ? "GDC" :
905 workingAs == ldc ? "LDC" :
907 if ( workingAs == gdc ) {
908 struct ldcDescriptorStruct *ldc;
910 printf( "LDCs (%d):", numOfLdcs );
911 for ( ldc = ldcsHead; ldc != NULL; ldc = ldc->next ) {
912 printf( " %d", ldc->id );
919 if ( workingAs == ldc ) {
920 assert( ldcsHead == ldcsTail );
921 assert( ldcsTail == NULL );
924 if ( workingAs == gdc ) {
925 struct ldcDescriptorStruct *ldc;
927 assert( ldcsHead != NULL );
928 assert( ldcsTail != NULL );
929 assert( ldcsTail->next == NULL );
930 for ( ldc = ldcsHead; ldc->next != NULL; ldc = ldc->next );
931 assert ( ldc == ldcsTail );
934 if ( workingAs == unknown ) {
935 DBG_VERBOSE printf( "Empty configuration: nothing to do!\n" );
939 assert( (eventsHead == NULL && eventsTail == NULL)
940 || (eventsHead != NULL && eventsTail != NULL) );
941 } /* End of parseRules */
943 void loadTimestamp( struct eventHeaderStruct * const ev ) {
946 if ( time( &t ) == (time_t)-1 ) {
948 "%s: failed to get system time errno:%d (%s)\n",
949 myName, errno, strerror( errno ) );
952 ev->eventTimestamp = (eventTimestampType)t;
953 } /* End of loadTimestamp */
955 void initEvent( struct eventHeaderStruct * const ev ) {
956 memset( ev, 0, sizeof( *ev ) );
958 ev->eventMagic = EVENT_MAGIC_NUMBER;
959 ev->eventHeadSize = EVENT_HEAD_BASE_SIZE;
960 ev->eventVersion = EVENT_CURRENT_VERSION;
961 ev->eventRunNb = currRunNb;
962 ZERO_EVENT_ID( ev->eventId );
963 ZERO_TRIGGER_PATTERN( ev->eventTriggerPattern );
964 ZERO_DETECTOR_PATTERN( ev->eventDetectorPattern );
965 RESET_ATTRIBUTES( ev->eventTypeAttribute );
966 if ( workingMode == collider )
967 SET_SYSTEM_ATTRIBUTE( ev->eventTypeAttribute, ATTR_ORBIT_BC );
968 ev->eventLdcId = VOID_ID;
969 ev->eventGdcId = VOID_ID;
971 } /* End of initEvent */
975 // Swap the endianess of the integer value 'x'
977 return (((x & 0x000000ffU) << 24) | ((x & 0x0000ff00U) << 8) |
978 ((x & 0x00ff0000U) >> 8) | ((x & 0xff000000U) >> 24));
981 void outputEvent( const void * const ev,
986 const long32 * const v = (long32 *)ev;
987 printf( "Writing %d bytes @ %p (%d)\n", size, ev, *v );
990 // .............................Test endianess..............................
992 char* ptemp = (char*) &temp;
994 if (ptemp[0]!=1) { // Mac platform: ptemp != 1..............................................................................
995 int bufSize= size; if (bufSize > (int) sizeof(eventHeaderStruct)) { bufSize = sizeof(eventHeaderStruct); }
996 char* evTemp = (char*) malloc (bufSize);
997 memcpy(evTemp, ev, bufSize);
999 if ((bufSize % sizeof(int)) != 0) {
1000 fprintf( stderr, "%s: size of the input buffer ev is not multiple of 4 (size = %d)\n", myName, bufSize);
1004 // Invert header to evTemp.....................................................
1005 int* buf = (int*) evTemp;
1006 for (int i=0; i < (int) (bufSize / sizeof(int)); i++, buf++) {
1007 int value = Swap(*buf);
1008 memcpy(evTemp + (i * sizeof(int)), &value, sizeof(int));
1011 // Write inverted header to file...............................................
1012 if ((done = fwrite( evTemp, bufSize, 1, outF )) != 1 ) {
1013 fprintf( stderr, "%s: failed to write inverted header. event size:%d bytes, errno:%d (%s)\n", myName, size, errno, strerror( errno ) );
1017 if (size > bufSize) { // Still theraw-data payload to write (but not inverted, since it is inverted eariler).............
1018 if ((done = fwrite( (char*)ev + bufSize, size - bufSize, 1, outF )) != 1 ) {
1019 fprintf( stderr, "%s: failed to write additional event size:%d bytes, errno:%d (%s)\n", myName, size, errno, strerror( errno ) );
1026 else { // Intel platform: ptemp == 1............................................................................
1027 if ((done = fwrite( ev, size, 1, outF )) != 1 ) {
1028 fprintf( stderr, "%s: failed to write event size:%d bytes, errno:%d (%s)\n", myName, size, errno, strerror( errno ) );
1032 } /* End of outputEvent */
1034 void createSorAndEor( const int sor ) {
1035 unsigned char event[ 1000 ];
1036 struct eventHeaderStruct *ev;
1037 struct eventHeaderStruct sev;
1039 assert( workingAs == ldc || workingAs == gdc );
1041 if ( !createSorEor ) return;
1042 ev = (struct eventHeaderStruct *)event;
1044 ev->eventSize = sizeof( event );
1045 ev->eventType = sor ? START_OF_RUN : END_OF_RUN;
1046 if ( workingMode == fixedTarget )
1047 LOAD_RAW_EVENT_ID( ev->eventId, 0, 0, 0 );
1049 LOAD_EVENT_ID( ev->eventId, 0, 0, 0 );
1050 SET_SYSTEM_ATTRIBUTE( ev->eventTypeAttribute, ATTR_P_START );
1052 if ( workingAs == ldc ) {
1053 currLdc = (struct ldcEventDescriptorStruct *)eventsHead;
1055 if ( workingAs == gdc ) {
1057 sev.eventGdcId = currGdcId;
1058 ev->eventGdcId = currGdcId;
1059 currGdc = (struct gdcEventDescriptorStruct *)eventsHead;
1060 currLdc = currGdc->head;
1062 ev->eventLdcId = currLdc->id;
1064 if ( workingAs == ldc ) {
1065 loadTimestamp( ev );
1066 outputEvent( ev, ev->eventSize );
1068 if ( workingAs == gdc ) {
1069 struct ldcDescriptorStruct *ldc;
1071 loadTimestamp( ev );
1073 sev.eventSize = sizeof( sev ) + numOfLdcs * ev->eventSize;
1074 sev.eventType = sor ? START_OF_RUN : END_OF_RUN ;
1075 COPY_EVENT_ID( ev->eventId, sev.eventId );
1076 COPY_SYSTEM_ATTRIBUTES( ev->eventTypeAttribute, sev.eventTypeAttribute );
1077 SET_SYSTEM_ATTRIBUTE( sev.eventTypeAttribute, ATTR_SUPER_EVENT );
1078 loadTimestamp( &sev );
1079 outputEvent( &sev, sizeof( sev ) );
1081 ev->eventGdcId = currGdcId;
1082 for ( ldc = ldcsHead; ldc != NULL; ldc = ldc->next ) {
1083 ev->eventLdcId = ldc->id;
1084 outputEvent( ev, ev->eventSize );
1088 ADD_EVENT_ID( ev->eventId, oneEventDelta );
1089 ev->eventSize = ev->eventSize / 2;
1090 ev->eventType = sor ? START_OF_RUN_FILES : END_OF_RUN_FILES;
1091 CLEAR_SYSTEM_ATTRIBUTE( ev->eventTypeAttribute, ATTR_P_START );
1092 if ( workingAs == ldc ) {
1093 loadTimestamp( ev );
1094 outputEvent( ev, ev->eventSize );
1096 if ( workingAs == gdc ) {
1097 struct ldcDescriptorStruct *ldc;
1099 loadTimestamp( ev );
1101 sev.eventSize = ev->eventSize;
1102 sev.eventType = sor ? START_OF_RUN_FILES : END_OF_RUN_FILES;
1103 COPY_EVENT_ID( ev->eventId, sev.eventId );
1104 COPY_SYSTEM_ATTRIBUTES( ev->eventTypeAttribute, sev.eventTypeAttribute );
1105 CLEAR_SYSTEM_ATTRIBUTE( sev.eventTypeAttribute, ATTR_SUPER_EVENT );
1106 outputEvent( &sev, sizeof( sev ) );
1107 outputEvent( ev, ev->eventSize - sizeof( sev ) );
1109 sev.eventSize = sizeof( sev ) + ev->eventSize;
1110 sev.eventType = sor ? START_OF_RUN_FILES : END_OF_RUN_FILES;
1111 COPY_EVENT_ID( ev->eventId, sev.eventId );
1112 COPY_SYSTEM_ATTRIBUTES( ev->eventTypeAttribute, sev.eventTypeAttribute );
1113 SET_SYSTEM_ATTRIBUTE( sev.eventTypeAttribute, ATTR_SUPER_EVENT );
1115 loadTimestamp( &sev );
1117 ev->eventGdcId = currGdcId;
1118 for ( ldc = ldcsHead; ldc != NULL; ldc = ldc->next ) {
1119 loadTimestamp( &sev );
1120 outputEvent( &sev, sizeof( sev ) );
1121 ev->eventLdcId = ldc->id;
1122 outputEvent( ev, ev->eventSize );
1126 ADD_EVENT_ID( ev->eventId, oneEventDelta );
1127 ev->eventSize = sizeof( *ev );
1128 ev->eventType = sor ? START_OF_RUN : END_OF_RUN;
1129 SET_SYSTEM_ATTRIBUTE( ev->eventTypeAttribute, ATTR_P_END );
1130 if ( workingAs == ldc ) {
1131 loadTimestamp( ev );
1132 outputEvent( ev, ev->eventSize );
1134 if ( workingAs == gdc ) {
1135 struct ldcDescriptorStruct *ldc;
1137 loadTimestamp( ev );
1139 sev.eventSize = sizeof( sev ) + numOfLdcs * ev->eventSize;
1140 sev.eventType = sor ? START_OF_RUN : END_OF_RUN;
1141 COPY_EVENT_ID( ev->eventId, sev.eventId );
1142 COPY_SYSTEM_ATTRIBUTES( ev->eventTypeAttribute, sev.eventTypeAttribute );
1143 SET_SYSTEM_ATTRIBUTE( sev.eventTypeAttribute, ATTR_SUPER_EVENT );
1144 loadTimestamp( &sev );
1146 outputEvent( &sev, sizeof( sev ) );
1148 for ( ldc = ldcsHead; ldc != NULL; ldc = ldc->next ) {
1149 ev->eventLdcId = ldc->id;
1150 outputEvent( ev, ev->eventSize );
1153 } /* End of createSorEor */
1156 createSorAndEor( TRUE );
1157 } /* End of createSor */
1160 createSorAndEor( FALSE );
1161 } /* End of createEor */
1163 void loadCdh( struct commonDataHeaderStruct * const cdh,
1164 eventIdType * const eventId,
1165 equipmentIdType id ) {
1166 if ( !handleCDH ) return;
1168 // CTP raw-data does not contain CDH
1169 if ( id == 4352) return;
1171 if ( gotAliceTrigger ) {
1172 cdh->cdhEventId1 = EVENT_ID_GET_BUNCH_CROSSING( *eventId );
1173 cdh->cdhEventId2 = EVENT_ID_GET_ORBIT( *eventId );
1175 cdh->cdhEventId1 = 0;
1176 cdh->cdhEventId2 = EVENT_ID_GET_NB_IN_RUN( *eventId );
1178 cdh->cdhMiniEventId = cdh->cdhEventId1;
1180 void decodeCDH( struct ldcEventDescriptorStruct * const ldc,
1181 const struct payloadDescriptorStruct * const payloadDesc,
1182 equipmentIdType id );
1184 void createEvent( void ) {
1185 assert( workingAs == ldc || workingAs == gdc );
1187 /* Step 1: load all buffers (if needed) and compose the GDC/LDC headers */
1188 if ( workingAs == gdc ) {
1189 struct ldcEventDescriptorStruct *ldc;
1191 for( ldc = currGdc->head; ldc != NULL; ldc = ldc->next ) {
1192 COPY_EVENT_ID( currEventId, ldc->header.eventId );
1193 loadTimestamp( &ldc->header );
1195 COPY_EVENT_ID( currEventId, currGdc->header.eventId );
1196 loadTimestamp( &currGdc->header );
1198 for( ldc = currGdc->head; ldc != NULL; ldc = ldc->next ) {
1199 struct equipmentEventDescriptorStruct *eq;
1202 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1203 if ( !bufferData ) {
1204 loadBuffer( eq->payload );
1205 decodeCDH( ldc, eq->payload, eq->id );
1207 loadCdh( (struct commonDataHeaderStruct*)eq->payload->data,
1212 if ( !currGdc->loaded ) {
1213 for ( n = 0; n != EVENT_TRIGGER_PATTERN_WORDS; n++ )
1214 currGdc->header.eventTriggerPattern[n] |= ldc->header.eventTriggerPattern[n];
1215 for ( n = 0; n != EVENT_DETECTOR_PATTERN_WORDS; n++ )
1216 currGdc->header.eventDetectorPattern[n] |= ldc->header.eventDetectorPattern[n];
1217 for ( n = 0; n != ALL_ATTRIBUTE_WORDS; n++ )
1218 currGdc->header.eventTypeAttribute[n] |= ldc->header.eventTypeAttribute[n];
1219 currGdc->loaded = TRUE;
1223 } else if ( workingAs == ldc ) {
1224 struct equipmentEventDescriptorStruct *eq;
1226 COPY_EVENT_ID( currEventId, currLdc->header.eventId );
1227 loadTimestamp( &currLdc->header );
1229 for ( eq = currLdc->head; eq != NULL; eq = eq->next ) {
1230 if ( !bufferData ) {
1231 loadBuffer( eq->payload );
1232 decodeCDH( currLdc, eq->payload, eq->id );
1234 loadCdh( (struct commonDataHeaderStruct*)eq->payload->data,
1237 currLdc->loaded = TRUE;
1241 ADD_EVENT_ID( currEventId, oneEventDelta );
1243 /* Step 2: output the event */
1244 if ( workingAs == gdc ) {
1245 struct ldcEventDescriptorStruct *ldc;
1247 outputEvent( &currGdc->header, sizeof( currGdc->header ) );
1249 for( ldc = currGdc->head; ldc != NULL; ldc = ldc->next ) {
1250 struct equipmentEventDescriptorStruct *eq;
1252 outputEvent( &ldc->header, sizeof( ldc->header ) );
1254 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1255 outputEvent( &eq->header, sizeof( eq->header ) );
1256 outputEvent( eq->payload->data, eq->payload->size );
1257 if ( !bufferData ) unloadBuffer( eq->payload );
1260 if ( (currGdc = currGdc->next) == NULL )
1261 currGdc = (struct gdcEventDescriptorStruct *)eventsHead;
1262 } else if ( workingAs == ldc ) {
1263 struct equipmentEventDescriptorStruct *eq;
1265 outputEvent( &currLdc->header, sizeof( currLdc->header ) );
1267 for ( eq = currLdc->head; eq != NULL; eq = eq->next ) {
1268 outputEvent( &eq->header, sizeof( eq->header ) );
1269 outputEvent( eq->payload->data, eq->payload->size );
1270 if ( !bufferData ) unloadBuffer( eq->payload );
1272 if ( (currLdc = currLdc->next) == NULL )
1273 currLdc = (struct ldcEventDescriptorStruct *)eventsHead;
1275 } /* End of createEvent */
1277 void createEvents() {
1280 currGdc = (struct gdcEventDescriptorStruct *)eventsHead;
1281 currLdc = (struct ldcEventDescriptorStruct *)eventsHead;
1286 eventNum != numOfEvents && numOfEvents != 0;
1291 } /* End of createEvents */
1295 "Usage: %s [-?][-d][-i definitionFile][-o outputFile][-# numOfEvents][-s][-F|-C]\n\
1297 -v Print version ID and exit\n\
1298 -d Enable debug (repeat for more verbosity)\n\
1299 -i definitionFile File with the description of the events to create (default: stdin)\n\
1300 -o outputFile File used to store events (default: stdout)\n\
1301 -# numOfEvents Number of events to generate (default: 1 event)\n\
1302 -s Do not generate SOR/EOR files (valid only for GDCs)\n\
1303 -F/-C Working in Fixed Target (F) or Collider (C) mode\n\
1305 -D Direct disc access (no buffering)\n",
1308 } /* End of usage */
1310 void parseArgs( int argc, char **argv ) {
1312 int inFileName = -1;
1313 int outFileName = -1;
1316 while ( arg < argc ) {
1317 if ( strcmp( "-?", argv[ arg ] ) == 0 ) {
1321 if ( strcmp( "-i", argv[ arg ] ) == 0 ) {
1322 if ( ++arg == argc ) exit( usage() );
1324 if ( freopen( argv[arg], "r", stdin ) == NULL ){
1326 "%s: failed to open input definition \"%s\" errno:%d ",
1327 myName, argv[arg], errno );
1331 } else if ( strcmp( "-v", argv[ arg ] ) == 0 ) {
1332 printf( "%s\n", fileHandlerIdent );
1334 } else if ( strcmp( "-o", argv[ arg ] ) == 0 ) {
1335 if ( ++arg == argc ) exit( usage() );
1337 } else if ( strcmp( "-#", argv[ arg ] ) == 0 ) {
1340 if ( ++arg == argc ) exit( usage() );
1341 if ( sscanf( argv[ arg ], "%d", &n ) != 1 ) exit( usage() );
1342 if ( n < 0 ) exit( usage() );
1344 } else if ( strcmp( "-s", argv[ arg ] ) == 0 ) {
1345 createSorEor = FALSE;
1346 } else if ( strcmp( "-F", argv[ arg ] ) == 0 ) {
1347 workingMode = fixedTarget;
1348 } else if ( strcmp( "-C", argv[ arg ] ) == 0 ) {
1349 workingMode = collider;
1350 } else if ( strcmp( "-d", argv[ arg ] ) == 0 ) {
1352 } else if ( strcmp( "-c", argv[ arg ] ) == 0 ) {
1354 } else if ( strcmp( "-D", argv[ arg ] ) == 0 ) {
1356 } else if ( strcmp( "-run", argv[ arg ] ) == 0 ) {
1358 if ( ++arg == argc ) exit( usage() );
1359 if ( sscanf( argv[ arg ], "%d", &runnumber ) != 1 ) exit( usage() );
1360 if ( runnumber < 0 ) exit( usage() );
1361 currRunNb = runnumber;
1363 fprintf( stderr, "%s: Unknown switch \"%s\"\n", myName, argv[argc] );
1369 if ( workingMode == fixedTarget )
1370 LOAD_RAW_EVENT_ID( oneEventDelta, 1, 0, 1 );
1372 LOAD_EVENT_ID( oneEventDelta, 0, 0, 1 );
1373 ZERO_EVENT_ID( currEventId );
1376 printf( "Configuration:\n" );
1377 printf( " Debug level: %d\n", debug );
1378 printf( " Configuration: %s\n",
1379 inFileName == -1 ? "stdin" : argv[ inFileName ] );
1380 printf( " Output: %s\n",
1381 outFileName == -1 ? "stdout" : argv[ outFileName ] );
1382 printf( " Working mode: %s\n",
1383 workingMode == fixedTarget ? "fixed target" : "collider" );
1384 printf( " Number of events: %d\n", numOfEvents );
1385 printf( " %s SOR/EOR files\n",
1386 createSorEor ? "Create" : "Do not create" );
1387 printf( " CDH handling: %s\n",
1388 handleCDH ? "enabled" : "disabled" );
1389 printf( " data buffering: %s\n",
1390 bufferData ? "enabled" : "DISABLED" );
1393 if ( outFileName == -1 ) {
1395 printf( "No more trace information from this point...\n" );
1399 if ( ( outF = fopen( argv[ outFileName ], "w" ) ) == NULL ) {
1401 "%s: failed to open output file \"%s\" for writing, errno:%d (%s)\n",
1403 argv[ outFileName ],
1405 strerror( errno ) );
1409 printf( "Output file \"%s\" opened OK for writing\n",
1410 argv[ outFileName ] );
1412 } /* End of parseArgs */
1413 void initEquipment( struct equipmentHeaderStruct * const eq ) {
1414 memset( eq, 0, sizeof( *eq ) );
1415 RESET_ATTRIBUTES( eq->equipmentTypeAttribute );
1416 eq->equipmentBasicElementSize = 4;
1417 } /* End of initEquipment */
1419 void decodeCDH( struct ldcEventDescriptorStruct * const ldc,
1420 const struct payloadDescriptorStruct * const payloadDesc,
1421 equipmentIdType id ) {
1424 struct commonDataHeaderStruct *cdh;
1425 static int softwareTriggerIndicator = FALSE;
1429 if ( payloadDesc->size < CDH_SIZE ) {
1431 "%s: payload too small got:%d CDH:%d\n",
1437 if ( (cdh = (struct commonDataHeaderStruct *)payloadDesc->data) != NULL ) {
1438 if ( cdh->cdhVersion != CDH_VERSION ) {
1440 "%s: CDH version mismatch expected:%d got:%d\n",
1446 if ( cdhRef == NULL ) {
1448 #define CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK (1<<CDH_TRIGGER_INFORMATION_UNAVAILABLE_BIT)
1449 gotAliceTrigger = (cdhRef->cdhStatusErrorBits & CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK) == 0;
1450 if ( gotAliceTrigger && workingMode == fixedTarget ) {
1452 "%s: ALICE trigger and fixed target mode are not compatible.\n\
1453 Either work in Collider mode or set the trigger unavailable status bit in the CDH.\n",
1457 if ( gotAliceTrigger ) {
1458 if ( (cdh->cdhL1TriggerMessage & 0x40) != 0 ) {
1460 "%s: CDH is a calibration trigger (unsupported) L1TriggerMessage:0x%x\n",
1461 myName, cdh->cdhL1TriggerMessage );
1464 if ( (cdh->cdhL1TriggerMessage & 0x01) != 0 ) {
1465 softwareTriggerIndicator = TRUE;
1467 if ( softwareTriggerIndicator ) {
1468 switch ((cdh->cdhL1TriggerMessage >> 2) & 0xF) {
1476 /* L1SwC bit = on, Clt bit = off, RoC[4..1] = 0xF --> END_OF_DATA */
1478 /* L1SwC bit = on, Clt bit = off, RoC[4..1] = 0xE0 --> START_OF_DATA */
1480 /* L1SwC bit = on, Clt bit = off, RoC[4] = 1, but not 0xE or 0xF
1481 --> SYSTEM_SOFTWARE_TRIGGER_EVENT */
1483 /* L1SwC bit = on, Clt bit = off, RoC[4] = 0
1484 --> DETECTOR_SOFTWARE_TRIGGER_EVENT */
1486 "%s: CDH trigger SOD/EOD/SST/DST (unsupported) \
1487 L1TriggerMessage:0x%x ALICETrigger:%s\n",
1489 cdh->cdhL1TriggerMessage,
1490 gotAliceTrigger ? "yes" : "no" );
1496 if ( (cdh->cdhStatusErrorBits & CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK) !=
1497 (cdhRef->cdhStatusErrorBits & CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK) ) {
1499 "%s: CDH coherency check failed. \
1500 Trigger information reference:%savailable current:%savailable\n",
1502 (cdhRef->cdhStatusErrorBits & CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK) == 0 ? "UN" : "",
1503 (cdh->cdhStatusErrorBits & CDH_TRIGGER_INFORMATION_UNAVAILABLE_MASK) == 0 ? "UN" : "" );
1506 if ( gotAliceTrigger ) {
1507 if ( cdhRef->cdhL1TriggerMessage != cdh->cdhL1TriggerMessage ) {
1509 "%s: CDH coherency check failed. \
1510 L1 trigger message reference:0x%x current:0x%x\n",
1512 cdhRef->cdhL1TriggerMessage,
1513 cdh->cdhL1TriggerMessage );
1516 if ( cdh->cdhParticipatingSubDetectors != cdhRef->cdhParticipatingSubDetectors ) {
1518 "%s: CDH coherency check failed. \
1519 ParticipatingSubDetectors reference:0x%x current:0x%x\n",
1521 cdhRef->cdhParticipatingSubDetectors,
1522 cdh->cdhParticipatingSubDetectors );
1525 if ( cdh->cdhTriggerClassesLow != cdhRef->cdhTriggerClassesLow
1526 || cdh->cdhTriggerClassesHigh != cdhRef->cdhTriggerClassesHigh ) {
1528 "%s: CDH coherency check failed. \
1529 TriggerClassesHigh/Low reference:0x%x-%x current:0x%x-%x\n",
1531 cdhRef->cdhTriggerClassesHigh, cdhRef->cdhTriggerClassesLow,
1532 cdh ->cdhTriggerClassesHigh, cdh ->cdhTriggerClassesLow );
1535 if ( cdh->cdhBlockLength != 0xffffffff ) {
1536 if ( (unsigned)payloadDesc->size != cdh->cdhBlockLength ) {
1538 "%s: CDH coherency check failed. \
1539 Payload size:%d (0x%08x) CDH block length:%d (0x%08x)\n",
1541 payloadDesc->size, payloadDesc->size,
1542 cdh->cdhBlockLength, cdh->cdhBlockLength );
1546 if ( cdh->cdhRoiLow != cdhRef->cdhRoiLow
1547 || cdh->cdhRoiHigh != cdhRef->cdhRoiHigh ) {
1549 "%s: CDH coherency check failed. \
1550 RoiHigh/Low reference:0x%x-%x current:0x%x-%x\n",
1552 cdhRef->cdhRoiHigh, cdhRef->cdhRoiLow,
1553 cdh ->cdhRoiHigh, cdh ->cdhRoiLow );
1557 if ( cdh->cdhMBZ0 != 0
1558 || cdh->cdhMBZ1 != 0
1559 || cdh->cdhMBZ2 != 0
1560 || cdh->cdhMBZ3 != 0 ) {
1562 "%s: CDH check failed. MBZ0:0x%x MBZ1:0x%x MBZ2:0x%x MBZ3:0x%x\n",
1564 cdh->cdhMBZ0, cdh->cdhMBZ1, cdh->cdhMBZ2, cdh->cdhMBZ3 );
1568 for ( attr = 0; attr != 8; attr++ ) {
1569 if ( (cdh->cdhBlockAttributes & (1<<attr)) != 0 ) {
1570 SET_USER_ATTRIBUTE( ldc->header.eventTypeAttribute, attr );
1573 for ( trig = 0; trig != 32; trig++ ) {
1574 if ( (cdh->cdhTriggerClassesLow & (1<<trig)) != 0 ) {
1575 SET_TRIGGER_IN_PATTERN( ldc->header.eventTriggerPattern,
1579 for ( trig = 0; trig != 18; trig++ ) {
1580 if ( (cdh->cdhTriggerClassesHigh & (1<<trig)) != 0 ) {
1581 SET_TRIGGER_IN_PATTERN( ldc->header.eventTriggerPattern,
1585 if ( gotAliceTrigger )
1586 VALIDATE_TRIGGER_PATTERN( ldc->header.eventTriggerPattern );
1589 } /* End of decodeCDH */
1592 assert( workingAs == ldc || workingAs == gdc );
1594 if ( workingAs == gdc ) {
1595 struct gdcEventDescriptorStruct *gdc;
1597 for ( gdc = (struct gdcEventDescriptorStruct *)eventsHead;
1600 struct ldcEventDescriptorStruct *ldc;
1602 initEvent( &gdc->header );
1603 gdc->header.eventSize = gdc->header.eventHeadSize;
1604 gdc->header.eventType = PHYSICS_EVENT;
1605 SET_SYSTEM_ATTRIBUTE( gdc->header.eventTypeAttribute, ATTR_SUPER_EVENT );
1606 gdc->header.eventGdcId = currGdcId;
1607 for ( ldc = gdc->head; ldc != NULL; ldc = ldc->next ) {
1608 struct equipmentEventDescriptorStruct *eq;
1610 initEvent( &ldc->header );
1611 ldc->header.eventSize = ldc->header.eventHeadSize;
1612 ldc->header.eventType = PHYSICS_EVENT;
1613 ldc->header.eventGdcId = currGdcId;
1614 ldc->header.eventLdcId = ldc->id;
1615 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1616 initEquipment( &eq->header );
1617 eq->header.equipmentId = eq->id;
1618 if ( workingMode == collider )
1619 SET_SYSTEM_ATTRIBUTE( eq->header.equipmentTypeAttribute,
1621 eq->header.equipmentSize = eq->payload->size + sizeof( eq->header );
1622 ldc->header.eventSize += eq->header.equipmentSize;
1623 decodeCDH( ldc, eq->payload, eq->id );
1624 OR_ALL_ATTRIBUTES( eq->header.equipmentTypeAttribute,
1625 ldc->header.eventTypeAttribute );
1626 OR_ALL_ATTRIBUTES( eq->header.equipmentTypeAttribute,
1627 gdc->header.eventTypeAttribute );
1629 gdc->header.eventSize += ldc->header.eventSize;
1635 printf( "Headers:\n" );
1636 for ( gdc = (struct gdcEventDescriptorStruct *)eventsHead;
1639 struct ldcEventDescriptorStruct *ldc;
1641 printf( " GDC:%d size:%d vers:%08x\n",
1643 gdc->header.eventSize,
1644 gdc->header.eventVersion);
1645 for ( ldc = gdc->head; ldc != NULL; ldc = ldc->next ) {
1646 struct equipmentEventDescriptorStruct *eq;
1648 printf( " LDC:%d size:%d vers:%08x\n",
1650 ldc->header.eventSize,
1651 ldc->header.eventVersion );
1652 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1653 printf( " EQ:%d size:%d %spayload:%d\n",
1655 eq->header.equipmentSize,
1656 eq->header.equipmentSize - sizeof( struct equipmentHeaderStruct ) == (unsigned)eq->payload->size ? "" : "-ERROR",
1657 eq->payload->size );
1662 } else if ( workingAs == ldc ) {
1663 struct ldcEventDescriptorStruct *ldc;
1665 for ( ldc = (struct ldcEventDescriptorStruct *)eventsHead;
1668 struct equipmentEventDescriptorStruct *eq;
1670 initEvent( &ldc->header );
1671 ldc->header.eventSize = ldc->header.eventHeadSize;
1672 ldc->header.eventType = PHYSICS_EVENT;
1673 ldc->header.eventGdcId = VOID_ID;
1674 ldc->header.eventLdcId = ldc->id;
1675 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1676 initEquipment( &eq->header );
1677 eq->header.equipmentId = eq->id;
1678 if ( workingMode == collider )
1679 SET_SYSTEM_ATTRIBUTE( eq->header.equipmentTypeAttribute,
1681 eq->header.equipmentSize = eq->payload->size + sizeof( eq->header );
1682 ldc->header.eventSize += eq->header.equipmentSize;
1683 decodeCDH( ldc, eq->payload, eq->id );
1684 OR_ALL_ATTRIBUTES( eq->header.equipmentTypeAttribute,
1685 ldc->header.eventTypeAttribute );
1690 printf( "Headers:\n" );
1691 for ( ldc = (struct ldcEventDescriptorStruct *)eventsHead;
1694 struct equipmentEventDescriptorStruct *eq;
1696 printf( " LDC:%d size:%d vers:%08x\n",
1698 ldc->header.eventSize,
1699 ldc->header.eventVersion );
1700 for ( eq = ldc->head; eq != NULL; eq = eq->next ) {
1701 printf( " EQ:%d size:%d %spayload:%d\n",
1703 eq->header.equipmentSize,
1704 eq->header.equipmentSize - sizeof( struct equipmentHeaderStruct ) == (unsigned)eq->payload->size ? "" : "-ERROR",
1705 eq->payload->size );
1710 } /* End of initEvents */
1714 workingAs = unknown;
1715 workingMode = fixedTarget;
1716 ldcsHead = ldcsTail = NULL;
1717 eventsHead = eventsTail = NULL;
1721 payloadsHead = payloadsTail = NULL;
1725 createSorEor = TRUE;
1727 gotAliceTrigger = TRUE;
1729 } /* End of initVars */
1731 int main( int argc, char **argv ) {
1733 parseArgs( argc, argv );