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source: trunk/FACT++/src/EventBuilder.c@ 14450

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Last change on this file since 14450 was 14225, checked in by tbretz, 12 years ago
Changed the timout for incomplete events from 10s to 30s
File size: 92.1 KB

Line
1
2	// // // #define EVTDEBUG
3
4	#define NUMSOCK 1 //set to 7 for old configuration
5	#define MAXREAD 65536 //64kB wiznet buffer
6
7	#include <stdlib.h>
8	#include <stdint.h>
9	#include <unistd.h>
10	#include <stdio.h>
11	#include <sys/time.h>
12	#include <arpa/inet.h>
13	#include <string.h>
14	#include <math.h>
15	#include <error.h>
16	#include <errno.h>
17	#include <unistd.h>
18	#include <sys/types.h>
19	#include <sys/socket.h>
20	#include <netinet/in.h>
21	#include <netinet/tcp.h>
22	#include <pthread.h>
23	#include <sched.h>
24
25	#include "EventBuilder.h"
26
27	enum Severity
28	{
29	kMessage = 10, ///< Just a message, usually obsolete
30	kInfo = 20, ///< An info telling something which can be interesting to know
31	kWarn = 30, ///< A warning, things that somehow might result in unexpected or unwanted bahaviour
32	kError = 40, ///< Error, something unexpected happened, but can still be handled by the program
33	kFatal = 50, ///< An error which cannot be handled at all happend, the only solution is program termination
34	kDebug = 99, ///< A message used for debugging only
35	};
36
37	#define MIN_LEN 32 // min #bytes needed to interpret FADheader
38	#define MAX_LEN 256*1024 // size of read-buffer per socket
39
40	//#define nanosleep(x,y)
41
42	extern FileHandle_t runOpen (uint32_t irun, RUN_HEAD * runhd, size_t len);
43	extern int runWrite (FileHandle_t fileHd, EVENT * event, size_t len);
44	extern int runClose (FileHandle_t fileHd, RUN_TAIL * runth, size_t len);
45	//extern int runFinish (uint32_t runnr);
46
47	extern void factOut (int severity, int err, char *message);
48
49	extern void gotNewRun (int runnr, PEVNT_HEADER * headers);
50
51
52	extern void factStat (GUI_STAT gj);
53
54	extern void factStatNew (EVT_STAT gi);
55
56	extern int eventCheck (uint32_t runNr, PEVNT_HEADER * fadhd, EVENT * event);
57
58	extern int subProcEvt (int threadID, PEVNT_HEADER * fadhd, EVENT * event,
59	int8_t * buffer);
60
61	extern void debugHead (int i, int j, void *buf);
62
63	extern void debugRead (int isock, int ibyte, int32_t event, int32_t ftmevt,
64	int32_t runnr, int state, uint32_t tsec,
65	uint32_t tusec);
66	extern void debugStream (int isock, void *buf, int len);
67
68	int CloseRunFile (uint32_t runId, uint32_t closeTime, uint32_t maxEvt);
69
70
71
72
73
74	int g_maxProc;
75	int g_maxSize;
76	int gi_maxSize;
77	int gi_maxProc;
78
79	uint g_actTime;
80	uint g_actUsec;
81	int g_runStat;
82	int g_reset;
83	int g_useFTM;
84
85	int gi_reset, gi_resetR, gi_resetS, gi_resetW, gi_resetX;
86	size_t g_maxMem; //maximum memory allowed for buffer
87
88	//no longer needed ...
89	int g_maxBoards; //maximum number of boards to be initialized
90	int g_actBoards;
91	//
92
93	FACT_SOCK g_port[NBOARDS]; // .addr=string of IP-addr in dotted-decimal "ddd.ddd.ddd.ddd"
94
95
96	int gi_runStat;
97	int gp_runStat;
98	int gw_runStat;
99
100	int gi_memStat = +1;
101
102	uint32_t gi_myRun = 0;
103	uint32_t actrun = 0;
104
105
106	uint gi_NumConnect[NBOARDS]; //4 crates * 10 boards
107
108	//uint gi_EvtStart= 0 ;
109	//uint gi_EvtRead = 0 ;
110	//uint gi_EvtBad = 0 ;
111	//uint gi_EvtTot = 0 ;
112	//size_t gi_usedMem = 0 ;
113
114	//uint gw_EvtTot = 0 ;
115	//uint gp_EvtTot = 0 ;
116
117	PIX_MAP g_pixMap[NPIX];
118
119	EVT_STAT gi;
120	GUI_STAT gj;
121
122	EVT_CTRL evtCtrl; //control of events during processing
123	int evtIdx[MAX_EVT * MAX_RUN]; //index from mBuffer to evtCtrl
124
125	WRK_DATA mBuffer[MAX_EVT * MAX_RUN]; //local working space
126
127	#define MXSTR 1000
128	char str[MXSTR];
129
130	//ETIENNE
131	#define MAX_SLOTS_PER_CHUNK 100
132
133	typedef struct {
134	int32_t eventNumber;
135	int32_t chunk;
136	int32_t slot;
137	} CHUNK_MAPPING;
138
139	CHUNK_MAPPING mBufferMapping[MAX_EVT * MAX_RUN];
140
141	#define MAX_EVT_MEM (sizeof(EVENT) + NPIX10242 + NTMARK10242)
142	#define MAX_HEAD_MEM (NBOARDS * sizeof(PEVNT_HEADER))
143	#define MAX_SLOT_SIZE (MAX_EVT_MEM + MAX_HEAD_MEM)
144	#define MAX_CHUNK_SIZE (MAX_SLOT_SIZE*MAX_SLOTS_PER_CHUNK)
145
146	typedef struct {
147	void * pointers[MAX_SLOTS_PER_CHUNK];
148	int32_t events[MAX_SLOTS_PER_CHUNK];
149	int32_t nFreeSlots;
150	int32_t nSlots;
151	} ETI_CHUNK;
152
153	int32_t numAllocatedChunks = 0;
154
155	#define MAX_CHUNKS 8096
156	ETI_CHUNK EtiMemoryChunks[MAX_CHUNKS];
157
158	void* ETI_Malloc(int evtId, int evtIndex)
159	{
160	for (int i=0;i<numAllocatedChunks;i++) {
161	if (EtiMemoryChunks[i].nFreeSlots > 0) {
162	for (int j=0;j<EtiMemoryChunks[i].nSlots;j++)
163	{
164	if (EtiMemoryChunks[i].events[j] == -1)
165	{
166	EtiMemoryChunks[i].events[j] = evtId;
167	EtiMemoryChunks[i].nFreeSlots--;
168	mBufferMapping[evtIndex].eventNumber = evtId;
169	mBufferMapping[evtIndex].chunk = i;
170	mBufferMapping[evtIndex].slot = j;
171	return EtiMemoryChunks[i].pointers[j];
172	}
173	}
174	//If I reach this point then we have a problem because it should have found
175	//a free spot just above.
176	}
177	}
178	//If we reach this point this means that we should allocate more memory
179	int32_t numNewSlots = 0;
180	if ((numAllocatedChunks + 1)*MAX_CHUNK_SIZE < g_maxMem)
181	numNewSlots = MAX_SLOTS_PER_CHUNK;
182	else
183	numNewSlots = (g_maxMem - numAllocatedChunks*MAX_CHUNK_SIZE)/MAX_SLOT_SIZE;
184
185	if (numNewSlots == 0)//cannot allocate more without exceeding the max mem limit
186	{
187	return NULL;
188	}
189
190	EtiMemoryChunks[numAllocatedChunks].pointers[0] = malloc(MAX_SLOT_SIZE*numNewSlots);
191	if (EtiMemoryChunks[numAllocatedChunks].pointers[0] == NULL)
192	{
193	snprintf (str, MXSTR, "Allocation of %lu bytes failed. %d chunks are currently allocated (max allowed %lu bytes)", MAX_CHUNK_SIZE, numAllocatedChunks, g_maxMem);
194	factOut (kError, 000, str);
195	return NULL;
196	}
197
198	EtiMemoryChunks[numAllocatedChunks].nSlots = numNewSlots;
199	EtiMemoryChunks[numAllocatedChunks].events[0] = evtId;
200	EtiMemoryChunks[numAllocatedChunks].nFreeSlots = numNewSlots-1;
201	mBufferMapping[evtIndex].eventNumber = evtId;
202	mBufferMapping[evtIndex].chunk = numAllocatedChunks;
203	mBufferMapping[evtIndex].slot = 0;
204
205	for (int i=1;i<numNewSlots;i++)
206	{
207	EtiMemoryChunks[numAllocatedChunks].pointers[i] = &(((char*)(EtiMemoryChunks[numAllocatedChunks].pointers[i-1]))[MAX_SLOT_SIZE]);
208	EtiMemoryChunks[numAllocatedChunks].events[i] = -1;
209	}
210	numAllocatedChunks++;
211
212	return EtiMemoryChunks[numAllocatedChunks-1].pointers[0];
213	}
214
215	void ETI_Free(int evtId, int evtIndex)
216	{
217	ETI_CHUNK* currentChunk = &EtiMemoryChunks[mBufferMapping[evtIndex].chunk];
218	if (currentChunk->events[mBufferMapping[evtIndex].slot] != evtId)
219	{
220	snprintf (str, MXSTR, "Mismatch in chunk mapping table. Expected evtId %d. Got %d. No memory was freed.", evtId, currentChunk->events[mBufferMapping[evtIndex].slot]);
221	factOut (kError, 000, str);
222	return;
223	}
224	currentChunk->events[mBufferMapping[evtIndex].slot] = -1;
225	currentChunk->nFreeSlots++;
226
227	int chunkIndex = mBufferMapping[evtIndex].chunk;
228	if (chunkIndex != numAllocatedChunks-1)
229	return;
230
231	while (EtiMemoryChunks[chunkIndex].nFreeSlots == EtiMemoryChunks[chunkIndex].nSlots)
232	{//free this chunk
233	if (EtiMemoryChunks[chunkIndex].pointers[0] == NULL)
234	{
235	snprintf(str, MXSTR, "Chunk %d not allocated as it ought to be. Skipping memory release.", chunkIndex);
236	factOut(kError, 000, str);
237	return;
238	}
239	free(EtiMemoryChunks[chunkIndex].pointers[0]);
240	EtiMemoryChunks[chunkIndex].pointers[0] = NULL;
241	numAllocatedChunks--;
242	chunkIndex--;
243	if (numAllocatedChunks == 0)
244	break;
245	}
246	}
247	//END ETIENNE
248
249
250
251	RUN_HEAD actRun;
252
253	RUN_CTRL runCtrl[MAX_RUN];
254
255	RUN_TAIL runTail[MAX_RUN];
256
257
258	/*
259	*** Definition of rdBuffer to read in IP packets; keep it global !!!!
260	*/
261
262
263	typedef union
264	{
265	int8_t B[MAX_LEN];
266	int16_t S[MAX_LEN / 2];
267	int32_t I[MAX_LEN / 4];
268	int64_t L[MAX_LEN / 8];
269	} CNV_FACT;
270
271	typedef struct
272	{
273	int bufTyp; //what are we reading at the moment: 0=header 1=data -1=skip ...
274	int32_t bufPos; //next byte to read to the buffer next
275	int32_t bufLen; //number of bytes left to read
276	// size_t bufLen; //number of bytes left to read size_t might be better
277	int32_t skip; //number of bytes skipped before start of event
278
279	int errCnt; //how often connect failed since last successful
280	int sockStat; //-1 if socket not yet connected , 99 if not exist
281	int socket; //contains the sockets
282	struct sockaddr_in SockAddr; //IP for each socket
283
284	int evtID; // event ID of event currently read
285	int runID; // run "
286	int ftmID; // event ID from FTM
287	uint fadLen; // FADlength of event currently read
288	int fadVers; // Version of FAD
289	int ftmTyp; // trigger type
290	int board; // boardID (softwareID: 0..40 )
291	int Port;
292
293	CNV_FACT *rBuf;
294
295	#ifdef EVTDEBUG
296	CNV_FACT *xBuf; //a copy of rBuf (temporary for debuging)
297	#endif
298
299	} READ_STRUCT;
300
301
302	typedef union
303	{
304	int8_t B[2];
305	int16_t S;
306	} SHORT_BYTE;
307
308
309
310
311
312	SHORT_BYTE start, stop;
313
314	READ_STRUCT rd[MAX_SOCK]; //buffer to read IP and afterwards store in mBuffer
315
316
317
318	/-----------------------------------------------------------------/
319
320
321	/-----------------------------------------------------------------/
322
323	int
324	runFinish1 (uint32_t runnr)
325	{
326	snprintf (str, MXSTR, "Should finish run %d (but not yet possible)",
327	runnr);
328	factOut (kInfo, 173, str); //but continue anyhow
329	return 0;
330	}
331	int
332	runFinish (uint32_t runnr)
333	{
334	snprintf (str, MXSTR, "Should finish run %d (but not yet possible)",
335	runnr);
336	factOut (kInfo, 173, str); //but continue anyhow
337	return 0;
338	}
339
340	int
341	GenSock (int flag, int sid, int port, struct sockaddr_in *sockAddr,
342	READ_STRUCT * rd)
343	{
344	/*
345	*** generate Address, create sockets and allocates readbuffer for it
346	***
347	*** if flag==0 generate socket and buffer
348	*** <0 destroy socket and buffer
349	*** >0 close and redo socket
350	***
351	*** sid : board*7 + port id
352	*/
353
354	int j;
355	int optval = 1; //activate keepalive
356	socklen_t optlen = sizeof (optval);
357
358
359	if (sid % 7 >= NUMSOCK) {
360	//this is a not used socket, so do nothing ...
361	rd->sockStat = 77;
362	rd->rBuf = NULL ;
363	return 0;
364	}
365
366	if (rd->sockStat == 0) { //close socket if open
367	j = close (rd->socket);
368	if (j > 0) {
369	snprintf (str, MXSTR, "Closing socket %d failed: %m (close,rc=%d)", sid, errno);
370	factOut (kFatal, 771, str);
371	} else {
372	snprintf (str, MXSTR, "Succesfully closed socket %d", sid);
373	factOut (kInfo, 771, str);
374	}
375	}
376
377	rd->sockStat = 99;
378
379	if (flag < 0) {
380	free (rd->rBuf); //and never open again
381	#ifdef EVTDEBUG
382	free (rd->xBuf); //and never open again
383	#endif
384	rd->rBuf = NULL;
385	return 0;
386	}
387
388
389	if (flag == 0) { //generate address and buffer ...
390	rd->Port = port;
391	rd->SockAddr.sin_family = sockAddr->sin_family;
392	rd->SockAddr.sin_port = htons (port);
393	rd->SockAddr.sin_addr = sockAddr->sin_addr;
394
395	#ifdef EVTDEBUG
396	rd->xBuf = malloc (sizeof (CNV_FACT));
397	#endif
398	rd->rBuf = malloc (sizeof (CNV_FACT));
399	if (rd->rBuf == NULL) {
400	snprintf (str, MXSTR, "Could not create local buffer %d (malloc failed)", sid);
401	factOut (kFatal, 774, str);
402	rd->sockStat = 77;
403	return -3;
404	}
405	}
406
407
408	if ((rd->socket = socket (PF_INET, SOCK_STREAM \| SOCK_NONBLOCK, 0)) <= 0) {
409	snprintf (str, MXSTR, "Generating socket %d failed: %m (socket,rc=%d)", sid, errno);
410	factOut (kFatal, 773, str);
411	rd->sockStat = 88;
412	return -2;
413	}
414	optval = 1;
415	if (setsockopt (rd->socket, SOL_SOCKET, SO_KEEPALIVE, &optval, optlen) < 0) {
416	snprintf (str, MXSTR, "Setting SO_KEEPALIVE for socket %d failed: %m (setsockopt,rc=%d)", sid, errno);
417	factOut (kInfo, 173, str); //but continue anyhow
418	}
419	optval = 10; //start after 10 seconds
420	if (setsockopt (rd->socket, SOL_TCP, TCP_KEEPIDLE, &optval, optlen) < 0) {
421	snprintf (str, MXSTR, "Setting TCP_KEEPIDLE for socket %d failed: %m (setsockopt,rc=%d)", sid, errno);
422	factOut (kInfo, 173, str); //but continue anyhow
423	}
424	optval = 10; //do every 10 seconds
425	if (setsockopt (rd->socket, SOL_TCP, TCP_KEEPINTVL, &optval, optlen) < 0) {
426	snprintf (str, MXSTR, "Setting TCP_KEEPINTVL for socket %d failed: %m (setsockopt,rc=%d)", sid, errno);
427	factOut (kInfo, 173, str); //but continue anyhow
428	}
429	optval = 2; //close after 2 unsuccessful tries
430	if (setsockopt (rd->socket, SOL_TCP, TCP_KEEPCNT, &optval, optlen) < 0) {
431	snprintf (str, MXSTR, "Setting TCP_KEEPCNT for socket %d failed: %m (setsockopt,rc=%d)", sid, errno);
432	factOut (kInfo, 173, str); //but continue anyhow
433	}
434
435
436	snprintf (str, MXSTR, "Successfully generated socket %d", sid);
437	factOut (kInfo, 773, str);
438	rd->sockStat = -1; //try to (re)open socket
439	rd->errCnt = 0;
440	return 0;
441
442	} /-----------------------------------------------------------------/
443
444	/-----------------------------------------------------------------/
445
446
447
448
449	int
450	mBufInit ()
451	{
452	// initialize mBuffer (mark all entries as unused\empty)
453
454	uint32_t actime = g_actTime + 50000000;
455
456	for (int i = 0; i < MAX_EVT * MAX_RUN; i++) {
457	mBuffer[i].evNum = mBuffer[i].nRoi = -1;
458	mBuffer[i].runNum = 0;
459
460	evtCtrl.evtBuf[i] = -1;
461	evtCtrl.evtStat[i] = -1;
462	evtCtrl.pcTime[i] = actime; //initiate to far future
463
464	//ETIENNE
465	mBufferMapping[i].chunk = -1;
466	mBufferMapping[i].eventNumber = -1;
467	mBufferMapping[i].slot = -1;
468	//END ETIENNE
469	}
470	for (int j=0;j<MAX_CHUNKS;j++)
471	EtiMemoryChunks[j].pointers[0] = NULL;
472
473	actRun.FADhead = malloc (NBOARDS * sizeof (PEVNT_HEADER));
474
475	evtCtrl.frstPtr = 0;
476	evtCtrl.lastPtr = 0;
477
478	return 0;
479
480	} /-----------------------------------------------------------------/
481
482
483
484
485	int
486	mBufEvt (int evID, uint runID, int nRoi[], int sk,
487	int fadlen, int trgTyp, int trgNum, int fadNum)
488	{
489	// generate a new Event into mBuffer:
490	// make sure only complete Event are possible, so 'free' will always work
491	// returns index into mBuffer[], or negative value in case of error
492	// error: <-9000 if roi screwed up (not consistent with run)
493	// <-8000 (not consistent with event)
494	// <-7000 (not consistent with board)
495	// < 0 if no space left
496
497	struct timeval *tv, atv;
498	tv = &atv;
499	uint32_t tsec, tusec;
500	uint oldest;
501	int jold;
502
503	int i, b, evFree;
504	// int headmem = 0;
505	size_t needmem = 0;
506
507
508	b = sk / 7;
509
510	if (nRoi[0] < 0 \|\| nRoi[0] > 1024) {
511	snprintf (str, MXSTR, "Illegal roi in channel 0: %d (allowed: 0<=roi<=1024)", nRoi[0]);
512	factOut (kError, 999, str);
513	gj.badRoiR++;
514	gj.badRoi[b]++;
515	return -9999;
516	}
517
518	for (int jr = 1; jr < 8; jr++) {
519	if (nRoi[jr] != nRoi[0]) {
520	snprintf (str, MXSTR, "Mismatch of roi (%d) in channel %d with roi (%d) in channel 0.", nRoi[jr], jr, nRoi[0]);
521	factOut (kError, 711, str);
522	gj.badRoiB++;
523	gj.badRoi[b]++;
524	return -7101;
525	}
526	}
527	if (nRoi[8] < nRoi[0]) {
528	snprintf (str, MXSTR, "Mismatch of roi (%d) in channel 8. Should be larger or equal than the roi (%d) in channel 0.", nRoi[8], nRoi[0]);
529	factOut (kError, 712, str);
530	gj.badRoiB++;
531	gj.badRoi[b]++;
532	return -7102;
533	}
534
535
536	i = evID % MAX_EVT;
537	evFree = -1;
538
539	for (int k = 0; k < MAX_RUN; k++) {
540	if (mBuffer[i].evNum == evID && mBuffer[i].runNum == runID) { //event is already registered;
541	// is it ok ????
542	if (mBuffer[i].nRoi != nRoi[0]
543	\|\| mBuffer[i].nRoiTM != nRoi[8]) {
544	snprintf (str, MXSTR, "Mismatch of roi within event. Expected roi=%d and roi_tm=%d, got %d and %d.",
545	mBuffer[i].nRoi, mBuffer[i].nRoiTM, nRoi[0], nRoi[8]);
546	factOut (kError, 821, str);
547	gj.badRoiE++;
548	gj.badRoi[b]++;
549	return -8201;
550	}
551	// count for inconsistencies
552
553	if (mBuffer[i].trgNum != trgNum)
554	mBuffer[i].Errors[0]++;
555	if (mBuffer[i].fadNum != fadNum)
556	mBuffer[i].Errors[1]++;
557	if (mBuffer[i].trgTyp != trgTyp)
558	mBuffer[i].Errors[2]++;
559
560	//everything seems fine so far ==> use this slot ....
561	return i;
562	}
563	if (evFree < 0 && mBuffer[i].evNum < 0)
564	evFree = i;
565	i += MAX_EVT;
566	}
567
568
569	//event does not yet exist; create it
570	if (evFree < 0) { //no space available in ctrl
571	snprintf (str, MXSTR, "No control slot to keep event %d", evID);
572	factOut (kError, 881, str);
573	return -1;
574	}
575	i = evFree; //found free entry; use it ...
576
577	gettimeofday (tv, NULL);
578	tsec = atv.tv_sec;
579	tusec = atv.tv_usec;
580
581	//check if runId already registered in runCtrl
582	evFree = -1;
583	oldest = g_actTime + 1000;
584	jold = -1;
585	for (int k = 0; k < MAX_RUN; k++) {
586	if (runCtrl[k].runId == runID) {
587	// if (runCtrl[k].procId > 0) { //run is closed -> reject
588	// snprintf (str, MXSTR, "skip event since run %d finished", runID);
589	// factOut (kInfo, 931, str);
590	// return -21;
591	// }
592
593	if (runCtrl[k].roi0 != nRoi[0]
594	\|\| runCtrl[k].roi8 != nRoi[8]) {
595	snprintf (str, MXSTR, "Mismatch of roi within run. Expected roi=%d and roi_tm=%d, got %d and %d.",
596	runCtrl[k].roi0, runCtrl[k].roi8, nRoi[0], nRoi[8]);
597	factOut (kError, 931, str);
598	gj.badRoiR++;
599	gj.badRoi[b]++;
600	return -9301;
601	}
602	goto RUNFOUND;
603	} else if (evFree < 0 && runCtrl[k].fileId < 0) { //not yet used
604	evFree = k;
605	} else if (evFree < 0 && runCtrl[k].fileId > 0) { //already closed
606	if (runCtrl[k].closeTime < oldest) {
607	oldest = runCtrl[k].closeTime;
608	jold = k;
609	}
610	}
611	}
612
613	if (evFree < 0 && jold < 0) {
614	snprintf (str, MXSTR, "Not able to register the new run %d", runID);
615	factOut (kFatal, 883, str);
616	return -1001;
617	} else {
618	if (evFree < 0)
619	evFree = jold;
620	snprintf (str, MXSTR, "New run %d (evFree=%d) registered with roi=%d and roi_tm=%d", runID,
621	evFree, nRoi[0], nRoi[8]);
622	factOut (kInfo, 503, str);
623	runCtrl[evFree].runId = runID;
624	runCtrl[evFree].roi0 = nRoi[0];
625	runCtrl[evFree].roi8 = nRoi[8];
626	runCtrl[evFree].fileId = -2;
627	runCtrl[evFree].procId = -2;
628	runCtrl[evFree].lastEvt = -1;
629	runCtrl[evFree].nextEvt = 0;
630	runCtrl[evFree].actEvt = 0;
631	runCtrl[evFree].procEvt = 0;
632	runCtrl[evFree].maxEvt = 999999999; //max number events allowed
633	runCtrl[evFree].firstUsec = tusec;
634	runCtrl[evFree].firstTime = runCtrl[evFree].lastTime = tsec;
635	runCtrl[evFree].closeTime = tsec + 3600 * 24; //max time allowed
636	// runCtrl[evFree].lastTime = 0;
637
638	runTail[evFree].nEventsOk =
639	runTail[evFree].nEventsRej =
640	runTail[evFree].nEventsBad =
641	runTail[evFree].PCtime0 = runTail[evFree].PCtimeX = 0;
642	}
643
644	RUNFOUND:
645	//ETIENNE
646	/* needmem = sizeof (EVENT) + NPIX * nRoi[0] * 2 + NTMARK * nRoi[0] * 2; //
647
648	headmem = NBOARDS * sizeof (PEVNT_HEADER);
649
650	if (gj.usdMem + needmem + headmem + gi_maxSize > g_maxMem) {
651	gj.maxMem = gj.usdMem + needmem + headmem + gi_maxSize;
652	if (gi_memStat > 0) {
653	gi_memStat = -99;
654	snprintf (str, MXSTR, "no memory left to keep event %6d sock %3d",
655	evID, sk);
656	factOut (kError, 882, str);
657	} else {
658	snprintf (str, MXSTR, "no memory left to keep event %6d sock %3d",
659	evID, sk);
660	factOut (kDebug, 882, str);
661	}
662	return -11;
663	}
664	*/
665	mBuffer[i].FADhead = ETI_Malloc(evID, i);
666	mBuffer[i].buffer = NULL;
667	if (mBuffer[i].FADhead != NULL)
668	mBuffer[i].fEvent = (EVENT)&(((char)(mBuffer[i].FADhead))[MAX_HEAD_MEM]);
669	else
670	{
671	mBuffer[i].fEvent = NULL;
672	gj.usdMem = 0;
673	for (int k=0;k<numAllocatedChunks;k++)
674	gj.usdMem += EtiMemoryChunks[k].nSlots * MAX_SLOT_SIZE;
675	if (gj.usdMem > gj.maxMem)
676	gj.maxMem = gj.usdMem;
677	if (gi_memStat > 0) {
678	gi_memStat = -99;
679	snprintf (str, MXSTR, "No memory left to keep event %6d sock %3d",
680	evID, sk);
681	factOut (kError, 882, str);
682	} else {
683	snprintf (str, MXSTR, "No memory left to keep event %6d sock %3d",
684	evID, sk);
685	factOut (kDebug, 882, str);
686	}
687	return -11;
688	}
689	/*
690	mBuffer[i].FADhead = malloc (headmem);
691	if (mBuffer[i].FADhead == NULL) {
692	snprintf (str, MXSTR, "malloc header failed for event %d", evID);
693	factOut (kError, 882, str);
694	return -12;
695	}
696
697	mBuffer[i].fEvent = malloc (needmem);
698	if (mBuffer[i].fEvent == NULL) {
699	snprintf (str, MXSTR, "malloc data failed for event %d", evID);
700	factOut (kError, 882, str);
701	free (mBuffer[i].FADhead);
702	mBuffer[i].FADhead = NULL;
703	return -22;
704	}
705
706	mBuffer[i].buffer = malloc (gi_maxSize);
707	if (mBuffer[i].buffer == NULL) {
708	snprintf (str, MXSTR, "malloc buffer failed for event %d", evID);
709	factOut (kError, 882, str);
710	free (mBuffer[i].FADhead);
711	mBuffer[i].FADhead = NULL;
712	free (mBuffer[i].fEvent);
713	mBuffer[i].fEvent = NULL;
714	return -32;
715	}*/
716	//END ETIENNE
717	//flag all boards as unused
718	mBuffer[i].nBoard = 0;
719	for (int k = 0; k < NBOARDS; k++) {
720	mBuffer[i].board[k] = -1;
721	}
722	//flag all pixels as unused
723	for (int k = 0; k < NPIX; k++) {
724	mBuffer[i].fEvent->StartPix[k] = -1;
725	}
726	//flag all TMark as unused
727	for (int k = 0; k < NTMARK; k++) {
728	mBuffer[i].fEvent->StartTM[k] = -1;
729	}
730
731	mBuffer[i].fEvent->NumBoards = 0;
732	mBuffer[i].fEvent->PCUsec = tusec;
733	mBuffer[i].fEvent->PCTime = mBuffer[i].pcTime = tsec;
734	mBuffer[i].nRoi = nRoi[0];
735	mBuffer[i].nRoiTM = nRoi[8];
736	mBuffer[i].evNum = evID;
737	mBuffer[i].runNum = runID;
738	mBuffer[i].fadNum = fadNum;
739	mBuffer[i].trgNum = trgNum;
740	mBuffer[i].trgTyp = trgTyp;
741	mBuffer[i].evtLen = needmem;
742	mBuffer[i].Errors[0] =
743	mBuffer[i].Errors[1] = mBuffer[i].Errors[2] = mBuffer[i].Errors[3] = 0;
744	//ETIENNE
745	//gj.usdMem += needmem + headmem + gi_maxSize;
746	gj.usdMem = 0;
747	for (int k=0;k<numAllocatedChunks;k++)
748	{
749	gj.usdMem += EtiMemoryChunks[k].nSlots * MAX_SLOT_SIZE;
750	}
751	//END ETIENNE
752	if (gj.usdMem > gj.maxMem)
753	gj.maxMem = gj.usdMem;
754
755	gj.bufTot++;
756	if (gj.bufTot > gj.maxEvt)
757	gj.maxEvt = gj.bufTot;
758
759	gj.rateNew++;
760
761	//register event in 'active list (reading)'
762
763	evtCtrl.evtBuf[evtCtrl.lastPtr] = i;
764	evtCtrl.evtStat[evtCtrl.lastPtr] = 0;
765	evtCtrl.pcTime[evtCtrl.lastPtr] = g_actTime;
766	evtIdx[i] = evtCtrl.lastPtr;
767
768
769	snprintf (str, MXSTR,
770	"%5d %8d start new evt %8d %8d sock %3d len %5d t %10d", evID,
771	runID, i, evtCtrl.lastPtr, sk, fadlen, mBuffer[i].pcTime);
772	factOut (kDebug, -11, str);
773	evtCtrl.lastPtr++;
774	if (evtCtrl.lastPtr == MAX_EVT * MAX_RUN)
775	evtCtrl.lastPtr = 0;
776
777	gi.evtGet++;
778
779	return i;
780
781	} /-----------------------------------------------------------------/
782
783
784
785
786	int
787	mBufFree (int i)
788	{
789	//delete entry [i] from mBuffer:
790	//(and make sure multiple calls do no harm ....)
791
792	// int headmem = 0;
793	int evid;
794	// size_t freemem = 0;
795
796	evid = mBuffer[i].evNum;
797	// freemem = mBuffer[i].evtLen;
798	//ETIENNE
799	ETI_Free(evid, i);
800	// free (mBuffer[i].fEvent);
801	mBuffer[i].fEvent = NULL;
802
803	// free (mBuffer[i].FADhead);
804	mBuffer[i].FADhead = NULL;
805
806	// free (mBuffer[i].buffer);
807	mBuffer[i].buffer = NULL;
808	//END ETIENNE
809	// headmem = NBOARDS * sizeof (PEVNT_HEADER);
810	mBuffer[i].evNum = mBuffer[i].nRoi = -1;
811	mBuffer[i].runNum = 0;
812	//ETIENNE
813	// gj.usdMem = gj.usdMem - freemem - headmem - gi_maxSize;
814	gj.usdMem = 0;
815	for (int k=0;k<numAllocatedChunks;k++)
816	{
817	gj.usdMem += EtiMemoryChunks[k].nSlots * MAX_SLOT_SIZE;
818	}
819	//END ETIENNE
820	gj.bufTot--;
821
822	if (gi_memStat < 0) {
823	if (gj.usdMem <= 0.75 * gj.maxMem)
824	gi_memStat = +1;
825	}
826
827
828	return 0;
829
830	} /-----------------------------------------------------------------/
831
832
833	void
834	resetEvtStat ()
835	{
836	for (int i = 0; i < MAX_SOCK; i++)
837	gi.numRead[i] = 0;
838
839	for (int i = 0; i < NBOARDS; i++) {
840	gi.gotByte[i] = 0;
841	gi.gotErr[i] = 0;
842
843	}
844
845	gi.evtGet = 0; //#new Start of Events read
846	gi.evtTot = 0; //#complete Events read
847	gi.evtErr = 0; //#Events with Errors
848	gi.evtSkp = 0; //#Events incomplete (timeout)
849
850	gi.procTot = 0; //#Events processed
851	gi.procErr = 0; //#Events showed problem in processing
852	gi.procTrg = 0; //#Events accepted by SW trigger
853	gi.procSkp = 0; //#Events rejected by SW trigger
854
855	gi.feedTot = 0; //#Events used for feedBack system
856	gi.feedErr = 0; //#Events rejected by feedBack
857
858	gi.wrtTot = 0; //#Events written to disk
859	gi.wrtErr = 0; //#Events with write-error
860
861	gi.runOpen = 0; //#Runs opened
862	gi.runClose = 0; //#Runs closed
863	gi.runErr = 0; //#Runs with open/close errors
864
865	return;
866	} /-----------------------------------------------------------------/
867
868
869
870	void
871	initReadFAD ()
872	{
873	return;
874	} /-----------------------------------------------------------------/
875
876
877
878	void *
879	readFAD (void *ptr)
880	{
881	/* *** main loop reading FAD data and sorting them to complete events */
882	int head_len, frst_len, numok, numok2, numokx, dest, evID, i, k;
883	int actBoards = 0, minLen;
884	int32_t jrd;
885	uint gi_SecTime; //time in seconds
886	int boardId, roi[9], drs, px, src, pixS, /pixH,/ pixC, pixR, tmS;
887
888	int goodhed = 0;
889
890	int sockDef[NBOARDS]; //internal state of sockets
891	int jrdx;
892
893
894	struct timespec xwait;
895
896
897	struct timeval *tv, atv;
898	tv = &atv;
899	uint32_t tsec, tusec;
900
901
902	snprintf (str, MXSTR, "Start initializing (readFAD)");
903	factOut (kInfo, -1, str);
904
905	// int cpu = 7; //read thread
906	// cpu_set_t mask;
907
908	/* CPU_ZERO initializes all the bits in the mask to zero. */
909	// CPU_ZERO (&mask);
910	/* CPU_SET sets only the bit corresponding to cpu. */
911	// cpu = 7;
912	// CPU_SET (cpu, &mask);
913
914	/* sched_setaffinity returns 0 in success */
915	// if (sched_setaffinity (0, sizeof (mask), &mask) == -1) {
916	// snprintf (str, MXSTR, "W ---> can not create affinity to %d", cpu);
917	// factOut (kWarn, -1, str);
918	// }
919
920
921	head_len = sizeof (PEVNT_HEADER);
922	frst_len = head_len; //max #bytes to read first: fad_header only, so each event must be longer, even for roi=0
923	minLen = head_len; //min #bytes needed to check header: full header for debug
924
925	start.S = 0xFB01;
926	stop.S = 0x04FE;
927
928	/* initialize run control logics */
929	for (i = 0; i < MAX_RUN; i++) {
930	runCtrl[i].runId = 0;
931	runCtrl[i].fileId = -2;
932	runCtrl[i].procId = -2;
933	}
934	gi_resetS = gi_resetR = 9;
935	for (i = 0; i < NBOARDS; i++)
936	sockDef[i] = 0;
937
938	START:
939	gettimeofday (tv, NULL);
940	g_actTime = tsec = atv.tv_sec;
941	g_actUsec = tusec = atv.tv_usec;
942	gi_myRun = g_actTime;
943	evtCtrl.frstPtr = 0;
944	evtCtrl.lastPtr = 0;
945
946	gi_SecTime = g_actTime;
947	gi_runStat = g_runStat;
948	gj.readStat = g_runStat;
949	numok = numok2 = 0;
950
951	int cntsock = 8 - NUMSOCK ;
952
953	if (gi_resetS > 0) {
954	//make sure all sockets are preallocated as 'not exist'
955	for (i = 0; i < MAX_SOCK; i++) {
956	rd[i].socket = -1;
957	rd[i].sockStat = 99;
958	}
959
960	for (k = 0; k < NBOARDS; k++) {
961	gi_NumConnect[k] = 0;
962	gi.numConn[k] = 0;
963	gj.numConn[k] = 0;
964	gj.errConn[k] = 0;
965	gj.rateBytes[k] = 0;
966	gj.totBytes[k] = 0;
967	}
968
969	}
970
971
972	if (gi_resetR > 0) {
973	resetEvtStat ();
974	gj.bufTot = gj.maxEvt = gj.xxxEvt = 0;
975	gj.usdMem = gj.maxMem = gj.xxxMem = 0;
976	gj.totMem = g_maxMem;
977	gj.bufNew = gj.bufEvt = 0;
978	gj.badRoiE = gj.badRoiR = gj.badRoiB =
979	gj.evtSkip = gj.evtWrite = gj.evtErr = 0;
980
981	int b;
982	for (b = 0; b < NBOARDS; b++)
983	gj.badRoi[b] = 0;
984
985	mBufInit (); //initialize buffers
986
987	snprintf (str, MXSTR, "End initializing (readFAD)");
988	factOut (kInfo, -1, str);
989	}
990
991
992	gi_reset = gi_resetR = gi_resetS = gi_resetW = 0;
993
994	while (g_runStat >= 0 && g_reset == 0) { //loop until global variable g_runStat claims stop
995
996	gi_runStat = g_runStat;
997	gj.readStat = g_runStat;
998	gettimeofday (tv, NULL);
999	g_actTime = tsec = atv.tv_sec;
1000	g_actUsec = tusec = atv.tv_usec;
1001
1002
1003	int b, p, p0, s0, nch;
1004	nch = 0;
1005	for (b = 0; b < NBOARDS; b++) {
1006	k = b * 7;
1007	if (g_port[b].sockDef != sockDef[b]) { //something has changed ...
1008	nch++;
1009	gi_NumConnect[b] = 0; //must close all connections
1010	gi.numConn[b] = 0;
1011	gj.numConn[b] = 0;
1012	if (sockDef[b] == 0)
1013	s0 = 0; //sockets to be defined and opened
1014	else if (g_port[b].sockDef == 0)
1015	s0 = -1; //sockets to be destroyed
1016	else
1017	s0 = +1; //sockets to be closed and reopened
1018
1019	if (s0 == 0)
1020	p0 = ntohs (g_port[b].sockAddr.sin_port);
1021	else
1022	p0 = 0;
1023
1024	for (p = p0 + 1; p < p0 + 8; p++) {
1025	GenSock (s0, k, p, &g_port[b].sockAddr, &rd[k]); //generate address and socket
1026	k++;
1027	}
1028	sockDef[b] = g_port[b].sockDef;
1029	}
1030	}
1031
1032	if (nch > 0) {
1033	actBoards = 0;
1034	for (b = 0; b < NBOARDS; b++) {
1035	if (sockDef[b] > 0)
1036	actBoards++;
1037	}
1038	}
1039
1040
1041	jrdx = 0;
1042	numokx = 0;
1043	numok = 0; //count number of succesfull actions
1044
1045	for (i = 0; i < MAX_SOCK; i++) { //check all sockets if something to read
1046	b = i / 7 ;
1047	p = i % 7 ;
1048
1049	if ( p >= NUMSOCK) { ; }
1050	else {
1051	if (sockDef[b] > 0)
1052	s0 = +1;
1053	else
1054	s0 = -1;
1055
1056	if (rd[i].sockStat < 0) { //try to connect if not yet done
1057	if (rd[i].sockStat == -1) {
1058	rd[i].sockStat = connect (rd[i].socket,
1059	(struct sockaddr *) &rd[i].SockAddr,
1060	sizeof (rd[i].SockAddr));
1061	if (rd[i].sockStat == -1) {
1062	rd[i].errCnt++ ;
1063	// if (rd[i].errCnt < 100) rd[i].sockStat = rd[i].errCnt ;
1064	// else if (rd[i].errCnt < 1000) rd[i].sockStat = 1000 ;
1065	// else rd[i].sockStat = 10000 ;
1066	}
1067	//printf("try to connect %d -> %d\n",i,rd[i].sockStat);
1068
1069	}
1070	if (rd[i].sockStat < -1 ) {
1071	rd[i].sockStat++ ;
1072	}
1073	if (rd[i].sockStat == 0) { //successfull ==>
1074	if (sockDef[b] > 0) {
1075	rd[i].bufTyp = 0; // expect a header
1076	rd[i].bufLen = frst_len; // max size to read at begining
1077	} else {
1078	rd[i].bufTyp = -1; // full data to be skipped
1079	rd[i].bufLen = MAX_LEN; //huge for skipping
1080	}
1081	rd[i].bufPos = 0; // no byte read so far
1082	rd[i].skip = 0; // start empty
1083	// gi_NumConnect[b]++;
1084	gi_NumConnect[b] += cntsock ;
1085
1086	gi.numConn[b]++;
1087	gj.numConn[b]++;
1088	snprintf (str, MXSTR, "New connection %d (number of connections: %d)", b, gi.numConn[b]);
1089	factOut (kInfo, -1, str);
1090	}
1091	}
1092
1093	if (rd[i].sockStat == 0) { //we have a connection ==> try to read
1094	if (rd[i].bufLen > 0) { //might be nothing to read [buffer full]
1095	numok++;
1096	size_t maxread = rd[i].bufLen ;
1097	if (maxread > MAXREAD ) maxread=MAXREAD ;
1098
1099	jrd =
1100	recv (rd[i].socket, &rd[i].rBuf->B[rd[i].bufPos],
1101	maxread, MSG_DONTWAIT);
1102	// rd[i].bufLen, MSG_DONTWAIT);
1103	if (jrd > 0) {
1104	debugStream (i, &rd[i].rBuf->B[rd[i].bufPos], jrd);
1105	#ifdef EVTDEBUG
1106	memcpy (&rd[i].xBuf->B[rd[i].bufPos],
1107	&rd[i].rBuf->B[rd[i].bufPos], jrd);
1108	snprintf (str, MXSTR,
1109	"read sock %3d bytes %5d len %5d first %d %d", i,
1110	jrd, rd[i].bufLen, rd[i].rBuf->B[rd[i].bufPos],
1111	rd[i].rBuf->B[rd[i].bufPos + 1]);
1112	factOut (kDebug, 301, str);
1113	#endif
1114	}
1115
1116	if (jrd == 0) { //connection has closed ...
1117	snprintf (str, MXSTR, "Socket %d closed by FAD", i);
1118	factOut (kInfo, 441, str);
1119	GenSock (s0, i, 0, NULL, &rd[i]);
1120	gi.gotErr[b]++;
1121	// gi_NumConnect[b]--;
1122	gi_NumConnect[b]-= cntsock ;
1123	gi.numConn[b]--;
1124	gj.numConn[b]--;
1125
1126	} else if (jrd < 0) { //did not read anything
1127	if (errno != EAGAIN && errno != EWOULDBLOCK) {
1128	snprintf (str, MXSTR, "Reading from socket %d failed: %m (recv,rc=%d)", i, errno);
1129	factOut (kError, 442, str);
1130	gi.gotErr[b]++;
1131	} else
1132	numok--; //else nothing waiting to be read
1133	jrd = 0;
1134	}
1135	} else {
1136	jrd = 0; //did read nothing as requested
1137	snprintf (str, MXSTR, "do not read from socket %d %d", i,
1138	rd[i].bufLen);
1139	factOut (kDebug, 301, str);
1140	}
1141
1142	gi.gotByte[b] += jrd;
1143	gj.rateBytes[b] += jrd;
1144
1145	if (jrd > 0) {
1146	numokx++;
1147	jrdx += jrd;
1148	}
1149
1150
1151	if (rd[i].bufTyp < 0) { // we are skipping this board ...
1152	// just do nothing
1153	#ifdef EVTDEBUG
1154	snprintf (str, MXSTR, "skipping %d bytes on socket %d", jrd,
1155	i);
1156	factOut (kInfo, 301, str);
1157	#endif
1158
1159	} else if (rd[i].bufTyp > 0) { // we are reading data ...
1160	if (jrd < rd[i].bufLen) { //not yet all read
1161	rd[i].bufPos += jrd; //==> prepare for continuation
1162	rd[i].bufLen -= jrd;
1163	debugRead (i, jrd, rd[i].evtID, rd[i].ftmID, rd[i].runID, 0, tsec, tusec); // i=socket; jrd=#bytes; ievt=eventid; 0=reading data
1164	} else { //full dataset read
1165	rd[i].bufLen = 0;
1166	rd[i].bufPos = rd[i].fadLen;
1167	if (rd[i].rBuf->B[rd[i].bufPos - 1] != stop.B[0]
1168	\|\| rd[i].rBuf->B[rd[i].bufPos - 2] != stop.B[1]) {
1169	gi.evtErr++;
1170	snprintf (str, MXSTR,
1171	"End-of-event flag wrong on socket %3d for event %4d (len=%5d), expected %3d %3d, got %3d %3d",
1172	i, rd[i].evtID, rd[i].fadLen, stop.B[0], stop.B[1],
1173	rd[i].rBuf->B[rd[i].bufPos - 1], rd[i].rBuf->B[rd[i].bufPos - 2]);
1174	factOut (kError, 301, str);
1175	goto EndBuf;
1176
1177	#ifdef EVTDEBUG
1178	} else {
1179	snprintf (str, MXSTR,
1180	"good end of buffer found sock %3d len %5d %d %d : %d %d - %d %d : %d %d",
1181	i, rd[i].fadLen, rd[i].rBuf->B[0],
1182	rd[i].rBuf->B[1], start.B[1], start.B[0],
1183	rd[i].rBuf->B[rd[i].bufPos - 2],
1184	rd[i].rBuf->B[rd[i].bufPos - 1], stop.B[1],
1185	stop.B[0]);
1186	factOut (kDebug, 301, str);
1187	#endif
1188	}
1189
1190	if (jrd > 0)
1191	debugRead (i, jrd, rd[i].evtID, rd[i].ftmID, rd[i].runID, 1, tsec, tusec); // i=socket; jrd=#bytes; ievt=eventid; 1=finished event
1192
1193	/* //we have a complete buffer, copy to WORK area
1194	int jr, kr;
1195	int checkRoi;
1196	roi[0] = ntohs (rd[i].rBuf->S[head_len / 2 + 2]);
1197	for (kr = 1; kr < 4; kr++)
1198	{
1199	checkRoi = ntohs(rd[i].rBuf->S[head_len/ 2 +
1200	+ kr*(roi[jr-1]+4)]);
1201	if (checkRoi != roi[0])
1202	{
1203	snprintf (str, MXSTR, "Inconsistent Roi accross board patches");
1204	factOut (kFatal, 1, str);
1205	goto EndBuf;
1206	}
1207
1208	}
1209	for (jr = 1; jr < 9; jr++) {
1210	roi[jr] =
1211	ntohs (rd[i].
1212	rBuf->S[head_len / 2 + 2 + jr * (roi[jr-1] + 4)]);
1213
1214	}
1215	*/
1216	//we have a complete buffer, copy to WORK area
1217
1218
1219	//End of the header. to channels now
1220	int eStart = 36;
1221	for (int ePatchesCount = 0; ePatchesCount<4*9;ePatchesCount++)
1222	{
1223	rd[i].rBuf->S[eStart+0] = ntohs(rd[i].rBuf->S[eStart+0]);//id
1224	rd[i].rBuf->S[eStart+1] = ntohs(rd[i].rBuf->S[eStart+1]);//start_cell
1225	rd[i].rBuf->S[eStart+2] = ntohs(rd[i].rBuf->S[eStart+2]);//roi
1226	rd[i].rBuf->S[eStart+3] = ntohs(rd[i].rBuf->S[eStart+3]);//filling
1227
1228	eStart += 4+rd[i].rBuf->S[eStart+2];//skip the pixel data
1229	}
1230
1231	//channels done. footer now
1232	// rd[i].rBuf->S[eStart+eCount] = ntohs(rd[i].rBuf->S[eStart+eCount]);//package_crc
1233	// eCount++;
1234	// rd[i].rBuf->S[eStart+eCount] = ntohs(rd[i].rBuf->S[eStart+eCount]);//end_package_flag
1235	// snprintf(str, MXSTR, "Bytes read %d bytes swapped %d", jrd, eCount*2);
1236	// factOut(kInfo, 000, str);
1237	//ETIENNE end of bytes swapping already
1238
1239
1240	int jr, kr;
1241	int checkRoi;
1242	int roiHopper = head_len/2 + 2; //points to the very first roi
1243	roi[0] = rd[i].rBuf->S[roiHopper];
1244	roiHopper += roi[0]+4;//skip to the second roi (i.e. next board, same patch-pixel)
1245	for (kr = 1; kr < 4; kr++)
1246	{
1247	checkRoi = rd[i].rBuf->S[roiHopper];
1248	if (checkRoi != roi[0])
1249	{
1250	snprintf (str, MXSTR, "Inconsistent Roi accross boards B=%d, expected %d, got %d", kr, checkRoi, roi[0]);
1251	factOut (kError, 1, str);
1252	goto EndBuf;
1253	}
1254	roiHopper += checkRoi+4;
1255	}
1256	//roiHopper now points to the first pixel of board 2. Do the 8 remaining pixels
1257	for (jr = 1; jr < 9; jr++) {
1258	roi[jr] = rd[i].rBuf->S[roiHopper];
1259	checkRoi = roi[jr];
1260	for (kr = 1; kr < 4; kr++)
1261	{
1262	roiHopper += checkRoi+4;
1263	checkRoi = rd[i].rBuf->S[roiHopper];
1264	if (checkRoi != roi[jr])
1265	{
1266	snprintf (str, MXSTR, "Inconsistent Roi accross patches B=%d P=%d, expected %d, got %d", kr, jr, roi[jr], checkRoi);
1267	factOut (kFatal, 1, str);
1268	goto EndBuf;
1269	}
1270	}
1271	}
1272	//get index into mBuffer for this event (create if needed)
1273
1274	// int actid;
1275	// if (g_useFTM > 0)
1276	// actid = rd[i].evtID;
1277	// else
1278	// actid = rd[i].ftmID;
1279
1280	evID = mBufEvt (rd[i].evtID, rd[i].runID, roi, i,
1281	rd[i].fadLen, rd[i].ftmTyp, rd[i].ftmID,
1282	rd[i].evtID);
1283
1284	if (evID < -1000) {
1285	goto EndBuf; //not usable board/event/run --> skip it
1286	}
1287	if (evID < 0) { //no space left, retry later
1288	#ifdef EVTDEBUG
1289	if (rd[i].bufLen != 0) {
1290	snprintf (str, MXSTR, "something screwed up");
1291	factOut (kFatal, 1, str);
1292	}
1293	#endif
1294	xwait.tv_sec = 0;
1295	xwait.tv_nsec = 10000000; // sleep for ~10 msec
1296	nanosleep (&xwait, NULL);
1297	goto EndBuf1; //hope there is free space next round
1298	}
1299	//we have a valid entry in mBuffer[]; fill it
1300
1301	#ifdef EVTDEBUG
1302	int xchk = memcmp (&rd[i].xBuf->B[0], &rd[i].rBuf->B[0],
1303	rd[i].fadLen);
1304	if (xchk != 0) {
1305	snprintf (str, MXSTR, "ERROR OVERWRITE %d %d on port %d",
1306	xchk, rd[i].fadLen, i);
1307	factOut (kFatal, 1, str);
1308
1309	uint iq;
1310	for (iq = 0; iq < rd[i].fadLen; iq++) {
1311	if (rd[i].rBuf->B[iq] != rd[i].xBuf->B[iq]) {
1312	snprintf (str, MXSTR, "ERROR %4d %4d %x %x", i, iq,
1313	rd[i].rBuf->B[iq], rd[i].xBuf->B[iq]);
1314	factOut (kFatal, 1, str);
1315	}
1316	}
1317	}
1318	#endif
1319	int qncpy = 0;
1320	boardId = b;
1321	int fadBoard = rd[i].rBuf->S[12];
1322	int fadCrate = fadBoard / 256;
1323	if (boardId != (fadCrate * 10 + fadBoard % 256)) {
1324	snprintf (str, MXSTR, "Board ID mismatch. Expected %d, got %d (C=%d, B=%d)",
1325	boardId, fadBoard, fadCrate, fadBoard % 256);
1326	factOut (kWarn, 301, str);
1327	}
1328	if (mBuffer[evID].board[boardId] != -1) {
1329	snprintf (str, MXSTR,
1330	"Got event %5d from board %3d (i=%3d, len=%5d) twice: Starts with %3d %3d - ends with %3d %3d",
1331	evID, boardId, i, rd[i].fadLen,
1332	rd[i].rBuf->B[0], rd[i].rBuf->B[1],
1333	rd[i].rBuf->B[rd[i].bufPos - 2],
1334	rd[i].rBuf->B[rd[i].bufPos - 1]);
1335	factOut (kWarn, 501, str);
1336	goto EndBuf; //--> skip Board
1337	}
1338
1339	int iDx = evtIdx[evID]; //index into evtCtrl
1340
1341	memcpy (&mBuffer[evID].FADhead[boardId].start_package_flag,
1342	&rd[i].rBuf->S[0], head_len);
1343	qncpy += head_len;
1344
1345	src = head_len / 2;
1346	for (px = 0; px < 9; px++) { //different sort in FAD board.....
1347	for (drs = 0; drs < 4; drs++) {
1348	// pixH = rd[i].rBuf->S[src++]; // ID
1349	src++;
1350	pixC = rd[i].rBuf->S[src++]; // start-cell
1351	pixR = rd[i].rBuf->S[src++]; // roi
1352	//here we should check if pixH is correct ....
1353
1354	pixS = boardId * 36 + drs * 9 + px;
1355	src++;
1356
1357
1358	mBuffer[evID].fEvent->StartPix[pixS] = pixC;
1359	dest = pixS * roi[0];
1360	memcpy (&mBuffer[evID].fEvent->Adc_Data[dest],
1361	&rd[i].rBuf->S[src], roi[0] * 2);
1362	qncpy += roi[0] * 2;
1363	src += pixR;
1364
1365	if (px == 8) {
1366	tmS = boardId * 4 + drs;
1367	if (pixR > roi[0]) { //and we have additional TM info
1368	dest = tmS * roi[0] + NPIX * roi[0];
1369	int srcT = src - roi[0];
1370	mBuffer[evID].fEvent->StartTM[tmS] =
1371	(pixC + pixR - roi[0]) % 1024;
1372	memcpy (&mBuffer[evID].fEvent->Adc_Data[dest],
1373	&rd[i].rBuf->S[srcT], roi[0] * 2);
1374	qncpy += roi[0] * 2;
1375	} else {
1376	mBuffer[evID].fEvent->StartTM[tmS] = -1;
1377	//ETIENNE because the TM channels are always processed during drs calib,
1378	//set them to zero if they are not present
1379	//I suspect that it may be more efficient to set all the allocated mem to
1380	//zero when allocating it
1381	// dest = tmSroi[0] + NPIXroi[0];
1382	// bzero(&mBuffer[evID].fEvent->Adc_Data[dest],roi[0]*2);
1383	}
1384	}
1385	}
1386	} // now we have stored a new board contents into Event structure
1387
1388	mBuffer[evID].fEvent->NumBoards++;
1389	mBuffer[evID].board[boardId] = boardId;
1390	evtCtrl.evtStat[iDx]++;
1391	evtCtrl.pcTime[iDx] = g_actTime;
1392
1393	if (++mBuffer[evID].nBoard >= actBoards) {
1394	int qnrun = 0;
1395	if (mBuffer[evID].runNum != actrun) { // have we already reported first event of this run ???
1396	actrun = mBuffer[evID].runNum;
1397	int ir;
1398	for (ir = 0; ir < MAX_RUN; ir++) {
1399	qnrun++;
1400	if (runCtrl[ir].runId == actrun) {
1401	if (++runCtrl[ir].lastEvt == 0) {
1402	gotNewRun (actrun, mBuffer[evID].FADhead);
1403	snprintf (str, MXSTR, "gotNewRun called for run %d, event %d",
1404	mBuffer[evID].runNum,
1405	mBuffer[evID].evNum);
1406	factOut (kInfo, 1, str);
1407	break;
1408	}
1409	}
1410	}
1411	}
1412	snprintf (str, MXSTR,
1413	"%5d complete event roi %4d roiTM %d cpy %8d %5d",
1414	mBuffer[evID].evNum, roi[0], roi[8] - roi[0],
1415	qncpy, qnrun);
1416	factOut (kDebug, -1, str);
1417
1418	//complete event read ---> flag for next processing
1419	evtCtrl.evtStat[iDx] = 99;
1420	gi.evtTot++;
1421	}
1422
1423	EndBuf:
1424	rd[i].bufTyp = 0; //ready to read next header
1425	rd[i].bufLen = frst_len;
1426	rd[i].bufPos = 0;
1427	EndBuf1:
1428	;
1429	}
1430
1431	} else { //we are reading event header
1432	rd[i].bufPos += jrd;
1433	rd[i].bufLen -= jrd;
1434	if (rd[i].bufPos >= minLen) { //sufficient data to take action
1435	//check if startflag correct; else shift block ....
1436	for (k = 0; k < rd[i].bufPos - 1; k++) {
1437	if (rd[i].rBuf->B[k] == start.B[1]
1438	&& rd[i].rBuf->B[k + 1] == start.B[0])
1439	break;
1440	}
1441	rd[i].skip += k;
1442
1443	if (k >= rd[i].bufPos - 1) { //no start of header found
1444	rd[i].bufPos = 0;
1445	rd[i].bufLen = head_len;
1446	} else if (k > 0) {
1447	rd[i].bufPos -= k;
1448	rd[i].bufLen += k;
1449	memcpy (&rd[i].rBuf->B[0], &rd[i].rBuf->B[k],
1450	rd[i].bufPos);
1451	#ifdef EVTDEBUG
1452	memcpy (&rd[i].xBuf->B[0], &rd[i].xBuf->B[k],
1453	rd[i].bufPos);
1454	#endif
1455	}
1456	if (rd[i].bufPos >= minLen) {
1457	if (rd[i].skip > 0) {
1458	snprintf (str, MXSTR, "Skipped %d bytes on port %d",
1459	rd[i].skip, i);
1460	factOut (kInfo, 666, str);
1461	rd[i].skip = 0;
1462	}
1463	goodhed++;
1464
1465	// Swap everything except start_package_flag.
1466	// It is to difficult to find out where it is used how,
1467	// but it doesn't really matter because it is not really
1468	// used anywehere else
1469	// rd[i].rBuf->S[1] = ntohs(rd[i].rBuf->S[1]); // package_length
1470	rd[i].rBuf->S[2] = ntohs(rd[i].rBuf->S[2]); // version_no
1471	rd[i].rBuf->S[3] = ntohs(rd[i].rBuf->S[3]); // PLLLCK
1472	rd[i].rBuf->S[4] = ntohs(rd[i].rBuf->S[4]); // trigger_crc
1473	rd[i].rBuf->S[5] = ntohs(rd[i].rBuf->S[5]); // trigger_type
1474
1475	rd[i].rBuf->S[12] = ntohs(rd[i].rBuf->S[12]); // board id
1476	rd[i].rBuf->S[13] = ntohs(rd[i].rBuf->S[13]); // adc_clock_phase_shift
1477	rd[i].rBuf->S[14] = ntohs(rd[i].rBuf->S[14]); // number_of_triggers_to_generate
1478	rd[i].rBuf->S[15] = ntohs(rd[i].rBuf->S[15]); // trigger_generator_prescaler
1479
1480	rd[i].rBuf->I[3] = ntohl(rd[i].rBuf->I[3]); // trigger_id
1481	rd[i].rBuf->I[4] = ntohl(rd[i].rBuf->I[4]); // fad_evt_counter
1482	rd[i].rBuf->I[5] = ntohl(rd[i].rBuf->I[5]); // REFCLK_frequency
1483
1484	rd[i].rBuf->I[10] = ntohl(rd[i].rBuf->I[10]); // runnumber;
1485	rd[i].rBuf->I[11] = ntohl(rd[i].rBuf->I[11]); // time;
1486
1487	for (int s=24;s<24+NTemp+NDAC;s++)
1488	rd[i].rBuf->S[s] = ntohs(rd[i].rBuf->S[s]); // drs_temperature / dac
1489
1490	rd[i].fadLen = ntohs(rd[i].rBuf->S[1]) * 2;
1491	rd[i].fadVers = rd[i].rBuf->S[2];
1492	rd[i].ftmTyp = rd[i].rBuf->S[5];
1493	rd[i].ftmID = rd[i].rBuf->I[3]; //(FTMevt)
1494	rd[i].evtID = rd[i].rBuf->I[4]; //(FADevt)
1495	rd[i].runID = rd[i].rBuf->I[11];
1496	rd[i].bufTyp = 1; //ready to read full record
1497	rd[i].bufLen = rd[i].fadLen - rd[i].bufPos;
1498
1499	#ifdef EVTDEBUG
1500	int fadboard = rd[i].rBuf->S[12];
1501	int fadcrate = fadboard / 256;
1502	fadboard = (fadcrate * 10 + fadboard % 256);
1503	snprintf (str, MXSTR,
1504	"sk %3d head: %5d %5d %5d %10d %4d %6d", i,
1505	rd[i].fadLen, rd[i].evtID, rd[i].ftmID,
1506	rd[i].runID, fadboard, jrd);
1507	factOut (kDebug, 1, str);
1508	#endif
1509
1510	if (rd[i].runID == 0)
1511	rd[i].runID = gi_myRun;
1512
1513	if (rd[i].bufLen <= head_len \|\| rd[i].bufLen > MAX_LEN) {
1514	snprintf (str, MXSTR,
1515	"Illegal event-length %d on port %d, %d expected.", rd[i].bufLen, i, head_len);
1516	factOut (kFatal, 881, str);
1517	rd[i].bufLen = 100000; //?
1518	}
1519
1520	int fadBoard = rd[i].rBuf->S[12];
1521	debugHead (i, fadBoard, rd[i].rBuf);
1522	debugRead (i, jrd, rd[i].evtID, rd[i].ftmID, rd[i].runID, -1, tsec, tusec); // i=socket; jrd=#bytes; ievt=eventid;-1=start event
1523	} else {
1524	debugRead (i, jrd, 0, 0, 0, -2, tsec, tusec); // i=socket; jrd=#bytes; ievt=eventid; -2=start event, unknown id yet
1525	}
1526	} else {
1527	debugRead (i, jrd, 0, 0, 0, -2, tsec, tusec); // i=socket; jrd=#bytes; ievt=eventid; -2=start event, unknown id yet
1528	}
1529
1530	} //end interpreting last read
1531	}
1532	} //end of successful read anything
1533	} //finished trying to read all sockets
1534
1535	#ifdef EVTDEBUG
1536	snprintf (str, MXSTR, "Loop ---- %3d --- %8d", numokx, jrdx);
1537	factOut (kDebug, -1, str);
1538	#endif
1539
1540	gi.numRead[numok]++;
1541
1542	g_actTime = time (NULL);
1543	if (g_actTime > gi_SecTime) {
1544	gi_SecTime = g_actTime;
1545
1546
1547	//loop over all active events and flag those older than read-timeout
1548	//delete those that are written to disk ....
1549
1550	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
1551	if (kd < 0)
1552	kd += (MAX_EVT * MAX_RUN);
1553
1554	gj.bufNew = gj.bufEvt = 0;
1555	int k1 = evtCtrl.frstPtr;
1556	for (k = k1; k < (k1 + kd); k++) {
1557	int k0 = k % (MAX_EVT * MAX_RUN);
1558	//would be better to use bitmaps for evtStat (allow '&' instead of multi-if)
1559
1560	if (evtCtrl.evtStat[k0] > 0 && evtCtrl.evtStat[k0] < 92) {
1561	gj.bufNew++; //incomplete event in Buffer
1562	if (evtCtrl.evtStat[k0] < 90
1563	&& evtCtrl.pcTime[k0] < g_actTime - 30) {
1564	int id = evtCtrl.evtBuf[k0];
1565	snprintf (str, MXSTR, "%5d skip incomplete evt %8d %8d %2d",
1566	mBuffer[id].evNum, evtCtrl.evtBuf[k0], k0,
1567	evtCtrl.evtStat[k0]);
1568	factOut (kWarn, 601, str);
1569
1570	int ik,ib,jb;
1571	ik=0;
1572	for (ib=0; ib<NBOARDS; ib++) {
1573	if (ib%10==0) {
1574	snprintf (&str[ik], MXSTR, "\|");
1575	ik++;
1576	}
1577	jb = mBuffer[id].board[ib];
1578	if ( jb<0 ) {
1579	if (gi_NumConnect[b] >0 ) {
1580	snprintf (&str[ik], MXSTR, ".");
1581	} else {
1582	snprintf (&str[ik], MXSTR, "x");
1583	}
1584	} else {
1585	snprintf (&str[ik], MXSTR, "%d",jb%10);
1586	}
1587	ik++;
1588	}
1589	snprintf (&str[ik], MXSTR, "\|");
1590	factOut (kWarn, 601, str);
1591
1592	evtCtrl.evtStat[k0] = 91; //timeout for incomplete events
1593	gi.evtSkp++;
1594	gi.evtTot++;
1595	gj.evtSkip++;
1596	}
1597	} else if (evtCtrl.evtStat[k0] >= 9000 //'delete'
1598	\|\| evtCtrl.evtStat[k0] == 0) { //'useless'
1599
1600	int id = evtCtrl.evtBuf[k0];
1601	snprintf (str, MXSTR, "%5d free event buffer, nb=%3d",
1602	mBuffer[id].evNum, mBuffer[id].nBoard);
1603	factOut (kDebug, -1, str);
1604	mBufFree (id); //event written--> free memory
1605	evtCtrl.evtStat[k0] = -1;
1606	gj.evtWrite++;
1607	gj.rateWrite++;
1608	} else if (evtCtrl.evtStat[k0] >= 95) {
1609	gj.bufEvt++; //complete event in Buffer
1610	}
1611
1612	if (k0 == evtCtrl.frstPtr && evtCtrl.evtStat[k0] < 0) {
1613	evtCtrl.frstPtr = (evtCtrl.frstPtr + 1) % (MAX_EVT * MAX_RUN);
1614	}
1615	}
1616
1617
1618	gj.deltaT = 1000; //temporary, must be improved
1619
1620	int b;
1621	for (b = 0; b < NBOARDS; b++)
1622	gj.totBytes[b] += gj.rateBytes[b];
1623	gj.totMem = g_maxMem;
1624	if (gj.maxMem > gj.xxxMem)
1625	gj.xxxMem = gj.maxMem;
1626	if (gj.maxEvt > gj.xxxEvt)
1627	gj.xxxEvt = gj.maxEvt;
1628
1629	factStat (gj);
1630	factStatNew (gi);
1631	gj.rateNew = gj.rateWrite = 0;
1632	gj.maxMem = gj.usdMem;
1633	gj.maxEvt = gj.bufTot;
1634	for (b = 0; b < NBOARDS; b++)
1635	gj.rateBytes[b] = 0;
1636	}
1637
1638	if (numok > 0)
1639	numok2 = 0;
1640	else if (numok2++ > 3) {
1641	if (g_runStat == 1) {
1642	xwait.tv_sec = 1;
1643	xwait.tv_nsec = 0; // hibernate for 1 sec
1644	} else {
1645	xwait.tv_sec = 0;
1646	xwait.tv_nsec = 2000000; // sleep for ~2 msec
1647	}
1648	nanosleep (&xwait, NULL);
1649	}
1650
1651	} //and do next loop over all sockets ...
1652
1653
1654	snprintf (str, MXSTR, "Stop reading ... RESET=%d", g_reset);
1655	factOut (kInfo, -1, str);
1656
1657	if (g_reset > 0) {
1658	gi_reset = g_reset;
1659	gi_resetR = gi_reset % 10; //shall we stop reading ?
1660	gi_resetS = (gi_reset / 10) % 10; //shall we close sockets ?
1661	gi_resetW = (gi_reset / 100) % 10; //shall we close files ?
1662	gi_resetX = gi_reset / 1000; //shall we simply wait resetX seconds ?
1663	g_reset = 0;
1664	} else {
1665	gi_reset = 0;
1666	if (g_runStat == -1)
1667	gi_resetR = 1;
1668	else
1669	gi_resetR = 7;
1670	gi_resetS = 7; //close all sockets
1671	gi_resetW = 7; //close all files
1672	gi_resetX = 0;
1673
1674	//inform others we have to quit ....
1675	gi_runStat = -11; //inform all that no update to happen any more
1676	gj.readStat = -11; //inform all that no update to happen any more
1677	}
1678
1679	if (gi_resetS > 0) {
1680	//must close all open sockets ...
1681	snprintf (str, MXSTR, "Close all sockets...");
1682	factOut (kInfo, -1, str);
1683	for (i = 0; i < MAX_SOCK; i++) {
1684	if (rd[i].sockStat == 0) {
1685	GenSock (-1, i, 0, NULL, &rd[i]); //close and destroy open socket
1686	if (i % 7 == 0) {
1687	// gi_NumConnect[i / 7]--;
1688	gi_NumConnect[i / 7]-= cntsock ;
1689	gi.numConn[i / 7]--;
1690	gj.numConn[i / 7]--;
1691	sockDef[i / 7] = 0; //flag ro recreate the sockets ...
1692	rd[i / 7].sockStat = -1; //and try to open asap
1693	}
1694	}
1695	}
1696	}
1697
1698
1699	if (gi_resetR > 0) {
1700	//flag all events as 'read finished'
1701	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
1702	if (kd < 0)
1703	kd += (MAX_EVT * MAX_RUN);
1704
1705	int k1 = evtCtrl.frstPtr;
1706	for (k = k1; k < (k1 + kd); k++) {
1707	int k0 = k % (MAX_EVT * MAX_RUN);
1708	if (evtCtrl.evtStat[k0] > 0 && evtCtrl.evtStat[k0] < 90) {
1709	evtCtrl.evtStat[k0] = 91;
1710	gi.evtSkp++;
1711	gi.evtTot++;
1712	}
1713	}
1714
1715	xwait.tv_sec = 0;
1716	xwait.tv_nsec = 2000000; // sleep for ~2 msec
1717	nanosleep (&xwait, NULL);
1718
1719	//and clear all buffers (might have to wait until all others are done)
1720	int minclear;
1721	if (gi_resetR == 1) {
1722	minclear = 900;
1723	snprintf (str, MXSTR, "Drain all buffers ...");
1724	} else {
1725	minclear = 0;
1726	snprintf (str, MXSTR, "Flush all buffers ...");
1727	}
1728	factOut (kInfo, -1, str);
1729
1730	int numclear = 1;
1731	while (numclear > 0) {
1732	numclear = 0;
1733	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
1734	if (kd < 0)
1735	kd += (MAX_EVT * MAX_RUN);
1736
1737	int k1 = evtCtrl.frstPtr;
1738	for (k = k1; k < (k1 + kd); k++) {
1739	int k0 = k % (MAX_EVT * MAX_RUN);
1740	if (evtCtrl.evtStat[k0] > minclear) {
1741	int id = evtCtrl.evtBuf[k0];
1742	snprintf (str, MXSTR, "ev %5d free event buffer, nb=%3d",
1743	mBuffer[id].evNum, mBuffer[id].nBoard);
1744	factOut (kDebug, -1, str);
1745	mBufFree (id); //event written--> free memory
1746	evtCtrl.evtStat[k0] = -1;
1747	} else if (evtCtrl.evtStat[k0] > 0)
1748	numclear++; //writing is still ongoing...
1749
1750	if (k0 == evtCtrl.frstPtr && evtCtrl.evtStat[k0] < 0)
1751	evtCtrl.frstPtr = (evtCtrl.frstPtr + 1) % (MAX_EVT * MAX_RUN);
1752	}
1753
1754	xwait.tv_sec = 0;
1755	xwait.tv_nsec = 2000000; // sleep for ~2 msec
1756	nanosleep (&xwait, NULL);
1757	}
1758	}
1759
1760	if (gi_reset > 0) {
1761	if (gi_resetW > 0) {
1762	CloseRunFile (0, 0, 0); //ask all Runs to be closed
1763	}
1764	if (gi_resetX > 0) {
1765	xwait.tv_sec = gi_resetX;
1766	xwait.tv_nsec = 0;
1767	nanosleep (&xwait, NULL);
1768	}
1769
1770	snprintf (str, MXSTR, "Continue read Process ...");
1771	factOut (kInfo, -1, str);
1772	gi_reset = 0;
1773	goto START;
1774	}
1775
1776
1777
1778	snprintf (str, MXSTR, "Exit read Process ...");
1779	factOut (kInfo, -1, str);
1780	gi_runStat = -99;
1781	gj.readStat = -99;
1782	factStat (gj);
1783	factStatNew (gi);
1784	return 0;
1785
1786	} /-----------------------------------------------------------------/
1787
1788
1789	void *
1790	subProc (void *thrid)
1791	{
1792	int64_t threadID;
1793	int numWait, numProc, k, jret;
1794	struct timespec xwait;
1795
1796	// int32_t cntr ;
1797
1798	threadID = (int64_t)thrid;
1799
1800	snprintf (str, MXSTR, "Starting sub-process-thread %ld", threadID);
1801	factOut (kInfo, -1, str);
1802
1803	while (g_runStat > -2) { //in case of 'exit' we still must process pending events
1804	numWait = numProc = 0;
1805	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
1806	if (kd < 0)
1807	kd += (MAX_EVT * MAX_RUN);
1808
1809	int k1 = evtCtrl.frstPtr;
1810	for (k = k1; k < (k1 + kd); k++) {
1811	int k0 = k % (MAX_EVT * MAX_RUN);
1812
1813	if (evtCtrl.evtStat[k0] == 1000 + threadID) {
1814	if (gi_resetR > 1) { //we are asked to flush buffers asap
1815	jret = 9100; //flag to be deleted
1816	} else {
1817	int id = evtCtrl.evtBuf[k0];
1818
1819
1820	jret =
1821	subProcEvt (threadID, mBuffer[id].FADhead,
1822	mBuffer[id].fEvent, mBuffer[id].buffer);
1823
1824
1825	if (jret <= threadID) {
1826	snprintf (str, MXSTR,
1827	"Process %ld wants to send event to process %d... not allowed.",
1828	threadID, jret);
1829	factOut (kError, -1, str);
1830	jret = 5300;
1831	} else if (jret <= 0)
1832	jret = 9200 + threadID; //flag as 'to be deleted'
1833	else if (jret >= gi_maxProc)
1834	jret = 5200 + threadID; //flag as 'to be written'
1835	else
1836	jret = 1000 + jret; //flag for next proces
1837	}
1838	evtCtrl.evtStat[k0] = jret;
1839	numProc++;
1840	} else if (evtCtrl.evtStat[k0] < 1000 + threadID)
1841	numWait++;
1842	}
1843
1844	if (gj.readStat < -10 && numWait == 0) { //nothing left to do
1845	snprintf (str, MXSTR, "Exit subProcessing in process %ld", threadID);
1846	factOut (kInfo, -1, str);
1847	return 0;
1848	}
1849	if (numProc == 0) {
1850	//seems we have nothing to do, so sleep a little
1851	xwait.tv_sec = 0;
1852	xwait.tv_nsec = 2000000; // sleep for ~2 msec
1853	nanosleep (&xwait, NULL);
1854	}
1855	}
1856
1857	snprintf (str, MXSTR, "Ending sub-process-thread %ld", threadID);
1858	factOut (kInfo, -1, str);
1859	return 0;
1860	} /-----------------------------------------------------------------/
1861
1862
1863	void *
1864	procEvt (void *ptr)
1865	{
1866	/* *** main loop processing file, including SW-trigger */
1867	int numProc, numWait;
1868	int status, j;
1869	struct timespec xwait;
1870	char str[MXSTR];
1871
1872
1873
1874	int lastRun = 0; //usually run from last event still valid
1875
1876	// cpu_set_t mask;
1877	// int cpu = 1; //process thread (will be several in final version)
1878
1879	snprintf (str, MXSTR, "Starting process-thread with %d subprocesses",
1880	gi_maxProc);
1881	factOut (kInfo, -1, str);
1882
1883	/* CPU_ZERO initializes all the bits in the mask to zero. */
1884	// CPU_ZERO (&mask);
1885	/* CPU_SET sets only the bit corresponding to cpu. */
1886	// CPU_SET( 0 , &mask ); leave for system
1887	// CPU_SET( 1 , &mask ); used by write process
1888	// CPU_SET (2, &mask);
1889	// CPU_SET (3, &mask);
1890	// CPU_SET (4, &mask);
1891	// CPU_SET (5, &mask);
1892	// CPU_SET (6, &mask);
1893	// CPU_SET( 7 , &mask ); used by read process
1894	/* sched_setaffinity returns 0 in success */
1895	// if (sched_setaffinity (0, sizeof (mask), &mask) == -1) {
1896	// snprintf (str, MXSTR, "P ---> can not create affinity to %d", cpu);
1897	// factOut (kWarn, -1, str);
1898	// }
1899
1900
1901	pthread_t thread[100];
1902	// int th_ret[100];
1903
1904	for (long long k = 0; k < gi_maxProc; k++) {
1905	/th_ret[k] =/ pthread_create (&thread[k], NULL, subProc, (void *) k);
1906	}
1907
1908	while (g_runStat > -2) { //in case of 'exit' we still must process pending events
1909
1910	numWait = numProc = 0;
1911	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
1912	if (kd < 0)
1913	kd += (MAX_EVT * MAX_RUN);
1914
1915	int k1 = evtCtrl.frstPtr;
1916	for (int k = k1; k < (k1 + kd); k++) {
1917	int k0 = k % (MAX_EVT * MAX_RUN);
1918	//would be better to use bitmaps for evtStat (allow '&' instead of multi-if)
1919	if (evtCtrl.evtStat[k0] > 90 && evtCtrl.evtStat[k0] < 1000) {
1920
1921	if (gi_resetR > 1) { //we are asked to flush buffers asap
1922	evtCtrl.evtStat[k0] = 9991;
1923	} else {
1924
1925	//-------- it is better to open the run already here, so call can be used to initialize
1926	//-------- buffers etc. needed to interprete run (e.g. DRS calibration)
1927	int id = evtCtrl.evtBuf[k0];
1928	uint32_t irun = mBuffer[id].runNum;
1929	int32_t ievt = mBuffer[id].evNum;
1930	if (runCtrl[lastRun].runId == irun) {
1931	j = lastRun;
1932	} else {
1933	//check which fileID to use (or open if needed)
1934	for (j = 0; j < MAX_RUN; j++) {
1935	if (runCtrl[j].runId == irun)
1936	break;
1937	}
1938	if (j >= MAX_RUN) {
1939	snprintf (str, MXSTR,
1940	"procEvt: Can not find run %d for event %d in %d",
1941	irun, ievt, id);
1942	factOut (kFatal, 901, str);
1943	}
1944	lastRun = j;
1945	}
1946
1947	if (runCtrl[j].fileId < 0) {
1948	//---- we need to open a new run ==> make sure all older runs are
1949	//---- finished and marked to be closed ....
1950	int j1;
1951	for (j1 = 0; j1 < MAX_RUN; j1++) {
1952	if (runCtrl[j1].fileId == 0) {
1953	runCtrl[j1].procId = 2; //--> do no longer accept events for processing
1954	//---- problem: processing still going on ==> must wait for closing ....
1955	snprintf (str, MXSTR,
1956	"procEvt: Finished run since new one opened %d",
1957	runCtrl[j1].runId);
1958	runFinish1 (runCtrl[j1].runId);
1959	}
1960
1961	}
1962
1963	actRun.Version = 1;
1964	actRun.RunType = -1; //to be adapted
1965
1966	actRun.Nroi = runCtrl[j].roi0;
1967	actRun.NroiTM = runCtrl[j].roi8;
1968	//ETIENNE don't reset it to zero as it is taken care of in DataWriteFits
1969	// if (actRun.Nroi == actRun.NroiTM)
1970	// actRun.NroiTM = 0;
1971	actRun.RunTime = runCtrl[j].firstTime;
1972	actRun.RunUsec = runCtrl[j].firstTime;
1973	actRun.NBoard = NBOARDS;
1974	actRun.NPix = NPIX;
1975	actRun.NTm = NTMARK;
1976	actRun.Nroi = mBuffer[id].nRoi;
1977	memcpy (actRun.FADhead, mBuffer[id].FADhead,
1978	NBOARDS * sizeof (PEVNT_HEADER));
1979
1980	runCtrl[j].fileHd =
1981	runOpen (irun, &actRun, sizeof (actRun));
1982	if (runCtrl[j].fileHd == NULL) {
1983	snprintf (str, MXSTR,
1984	"procEvt: Could not open a file for run %d (runOpen failed)", irun);
1985	factOut (kError, 502, str);
1986	runCtrl[j].fileId = 91;
1987	runCtrl[j].procId = 91;
1988	} else {
1989	snprintf (str, MXSTR, "procEvt: Opened new file for run %d (evt=%d)",
1990	irun, ievt);
1991	factOut (kInfo, -1, str);
1992	runCtrl[j].fileId = 0;
1993	runCtrl[j].procId = 0;
1994	}
1995
1996	}
1997	//-------- also check if run shall be closed (==> skip event, but do not close the file !!! )
1998	if (runCtrl[j].procId == 0) {
1999	if (runCtrl[j].closeTime < g_actTime
2000	\|\| runCtrl[j].lastTime < g_actTime - 300
2001	\|\| runCtrl[j].maxEvt <= runCtrl[j].procEvt) {
2002	snprintf (str, MXSTR,
2003	"procEvt: Reached end of run condition for run %d",
2004	irun);
2005	factOut (kInfo, 502, str);
2006	runFinish1 (runCtrl[j].runId);
2007	runCtrl[j].procId = 1;
2008	}
2009	}
2010	if (runCtrl[j].procId != 0) {
2011	snprintf (str, MXSTR,
2012	"procEvt: Skip event %d because no active run %d", ievt,
2013	irun);
2014	factOut (kDebug, 502, str);
2015	evtCtrl.evtStat[k0] = 9091;
2016	} else {
2017	//--------
2018	//--------
2019	id = evtCtrl.evtBuf[k0];
2020	int itevt = mBuffer[id].trgNum;
2021	int itrg = mBuffer[id].trgTyp;
2022	int roi = mBuffer[id].nRoi;
2023	int roiTM = mBuffer[id].nRoiTM;
2024
2025	//make sure unused pixels/tmarks are cleared to zero
2026	//ETIENNE don't reset it to zero as it is taken care of in DataWriteFits
2027	// if (roiTM == roi)
2028	// roiTM = 0;
2029	int ip, it, dest, ib;
2030	for (ip = 0; ip < NPIX; ip++) {
2031	if (mBuffer[id].fEvent->StartPix[ip] == -1) {
2032	dest = ip * roi;
2033	bzero (&mBuffer[id].fEvent->Adc_Data[dest], roi * 2);
2034	}
2035	}
2036
2037	for (it = 0; it < NTMARK; it++) {
2038	if (mBuffer[id].fEvent->StartTM[it] == -1) {
2039	dest = it * roi + NPIX * roi;
2040	bzero (&mBuffer[id].fEvent->Adc_Data[dest], roi * 2);
2041	}
2042	}
2043
2044
2045	//and set correct event header ; also check for consistency in event (not yet)
2046	mBuffer[id].fEvent->Roi = roi;
2047	mBuffer[id].fEvent->RoiTM = roiTM;
2048	mBuffer[id].fEvent->EventNum = ievt;
2049	mBuffer[id].fEvent->TriggerNum = itevt;
2050	mBuffer[id].fEvent->TriggerType = itrg;
2051	mBuffer[id].fEvent->Errors[0] = mBuffer[id].Errors[0];
2052	mBuffer[id].fEvent->Errors[1] = mBuffer[id].Errors[1];
2053	mBuffer[id].fEvent->Errors[2] = mBuffer[id].Errors[2];
2054	mBuffer[id].fEvent->Errors[3] = mBuffer[id].Errors[3];
2055	mBuffer[id].fEvent->SoftTrig = 0;
2056
2057
2058	for (ib = 0; ib < NBOARDS; ib++) {
2059	if (mBuffer[id].board[ib] == -1) { //board is not read
2060	mBuffer[id].FADhead[ib].start_package_flag = 0;
2061	mBuffer[id].fEvent->BoardTime[ib] = 0;
2062	} else {
2063	mBuffer[id].fEvent->BoardTime[ib] =
2064	mBuffer[id].FADhead[ib].time;
2065	}
2066	}
2067	int i = eventCheck (mBuffer[id].runNum, mBuffer[id].FADhead,
2068	mBuffer[id].fEvent);
2069	gi.procTot++;
2070	numProc++;
2071
2072	if (i < 0) {
2073	evtCtrl.evtStat[k0] = 9999; //flag event to be skipped
2074	gi.procErr++;
2075	} else {
2076	evtCtrl.evtStat[k0] = 1000;
2077	runCtrl[j].procEvt++;
2078	}
2079	}
2080	}
2081	} else if (evtCtrl.evtStat[k0] >= 0 && evtCtrl.evtStat[k0] < 90) {
2082	numWait++;
2083	}
2084	}
2085
2086	if (gj.readStat < -10 && numWait == 0) { //nothing left to do
2087	snprintf (str, MXSTR, "Exit Processing Process ...");
2088	factOut (kInfo, -1, str);
2089	gp_runStat = -22; //==> we should exit
2090	gj.procStat = -22; //==> we should exit
2091	return 0;
2092	}
2093
2094	if (numProc == 0) {
2095	//seems we have nothing to do, so sleep a little
2096	xwait.tv_sec = 0;
2097	xwait.tv_nsec = 2000000; // sleep for ~2 msec
2098	nanosleep (&xwait, NULL);
2099	}
2100	gp_runStat = gi_runStat;
2101	gj.procStat = gj.readStat;
2102
2103	}
2104
2105	//we are asked to abort asap ==> must flag all remaining events
2106	// when gi_runStat claims that all events are in the buffer...
2107
2108	snprintf (str, MXSTR, "Abort Processing Process ...");
2109	factOut (kInfo, -1, str);
2110	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
2111	if (kd < 0)
2112	kd += (MAX_EVT * MAX_RUN);
2113
2114	for (int k = 0; k < gi_maxProc; k++) {
2115	pthread_join (thread[k], (void **) &status);
2116	}
2117
2118	int k1 = evtCtrl.frstPtr;
2119	for (int k = k1; k < (k1 + kd); k++) {
2120	int k0 = k % (MAX_EVT * MAX_RUN);
2121	if (evtCtrl.evtStat[k0] >= 0 && evtCtrl.evtStat[k0] < 1000) {
2122	evtCtrl.evtStat[k0] = 9800; //flag event as 'processed'
2123	}
2124	}
2125
2126	gp_runStat = -99;
2127	gj.procStat = -99;
2128
2129	return 0;
2130
2131	} /-----------------------------------------------------------------/
2132
2133	int
2134	CloseRunFile (uint32_t runId, uint32_t closeTime, uint32_t maxEvt)
2135	{
2136	/* close run runId (all all runs if runId=0) */
2137	/* return: 0=close scheduled / >0 already closed / <0 does not exist */
2138	int j;
2139
2140
2141	if (runId == 0) {
2142	for (j = 0; j < MAX_RUN; j++) {
2143	if (runCtrl[j].fileId == 0) { //run is open
2144	runCtrl[j].closeTime = closeTime;
2145	runCtrl[j].maxEvt = maxEvt;
2146	}
2147	}
2148	return 0;
2149	}
2150
2151	for (j = 0; j < MAX_RUN; j++) {
2152	if (runCtrl[j].runId == runId) {
2153	if (runCtrl[j].fileId == 0) { //run is open
2154	runCtrl[j].closeTime = closeTime;
2155	runCtrl[j].maxEvt = maxEvt;
2156	return 0;
2157	} else if (runCtrl[j].fileId < 0) { //run not yet opened
2158	runCtrl[j].closeTime = closeTime;
2159	runCtrl[j].maxEvt = maxEvt;
2160	return +1;
2161	} else { // run already closed
2162	return +2;
2163	}
2164	}
2165	} //we only reach here if the run was never created
2166	return -1;
2167
2168	} /-----------------------------------------------------------------/
2169
2170
2171	void *
2172	writeEvt (void *ptr)
2173	{
2174	/* *** main loop writing event (including opening and closing run-files */
2175
2176	int numWrite, numWait;
2177	int k, j ;
2178	struct timespec xwait;
2179	char str[MXSTR];
2180
2181	// cpu_set_t mask;
2182	// int cpu = 1; //write thread
2183
2184	snprintf (str, MXSTR, "Starting write-thread");
2185	factOut (kInfo, -1, str);
2186
2187	/* CPU_ZERO initializes all the bits in the mask to zero. */
2188	// CPU_ZERO (&mask);
2189	/* CPU_SET sets only the bit corresponding to cpu. */
2190	// CPU_SET (cpu, &mask);
2191	/* sched_setaffinity returns 0 in success */
2192	// if (sched_setaffinity (0, sizeof (mask), &mask) == -1) {
2193	// snprintf (str, MXSTR, "W ---> can not create affinity to %d", cpu);
2194	// }
2195
2196	int lastRun = 0; //usually run from last event still valid
2197
2198	while (g_runStat > -2) {
2199
2200	numWait = numWrite = 0;
2201	int kd = evtCtrl.lastPtr - evtCtrl.frstPtr;
2202	if (kd < 0)
2203	kd += (MAX_EVT * MAX_RUN);
2204
2205	int k1 = evtCtrl.frstPtr;
2206	for (k = k1; k < (k1 + kd); k++) {
2207	int k0 = k % (MAX_EVT * MAX_RUN);
2208	//would be better to use bitmaps for evtStat (allow '&' instead of multi-if)
2209	if (evtCtrl.evtStat[k0] > 5000 && evtCtrl.evtStat[k0] < 9000) {
2210
2211	if (gi_resetR > 1) { //we must drain the buffer asap
2212	evtCtrl.evtStat[k0] = 9904;
2213	} else {
2214
2215
2216	int id = evtCtrl.evtBuf[k0];
2217	uint32_t irun = mBuffer[id].runNum;
2218	int32_t ievt = mBuffer[id].evNum;
2219
2220	gi.wrtTot++;
2221	if (runCtrl[lastRun].runId == irun) {
2222	j = lastRun;
2223	} else {
2224	//check which fileID to use (or open if needed)
2225	for (j = 0; j < MAX_RUN; j++) {
2226	if (runCtrl[j].runId == irun)
2227	break;
2228	}
2229	if (j >= MAX_RUN) {
2230	snprintf (str, MXSTR,
2231	"writeEvt: Can not find run %d for event %d in %d",
2232	irun, ievt, id);
2233	factOut (kFatal, 901, str);
2234	gi.wrtErr++;
2235	}
2236	lastRun = j;
2237	}
2238
2239	if (runCtrl[j].fileId < 0) {
2240	actRun.Version = 1;
2241	actRun.RunType = -1; //to be adapted
2242
2243	actRun.Nroi = runCtrl[j].roi0;
2244	actRun.NroiTM = runCtrl[j].roi8;
2245	//ETIENNE don't reset it to zero as it is taken care of in DataWriteFits
2246	// if (actRun.Nroi == actRun.NroiTM)
2247	// actRun.NroiTM = 0;
2248	actRun.RunTime = runCtrl[j].firstTime;
2249	actRun.RunUsec = runCtrl[j].firstTime;
2250	actRun.NBoard = NBOARDS;
2251	actRun.NPix = NPIX;
2252	actRun.NTm = NTMARK;
2253	actRun.Nroi = mBuffer[id].nRoi;
2254	memcpy (actRun.FADhead, mBuffer[id].FADhead,
2255	NBOARDS * sizeof (PEVNT_HEADER));
2256
2257	runCtrl[j].fileHd =
2258	runOpen (irun, &actRun, sizeof (actRun));
2259	if (runCtrl[j].fileHd == NULL) {
2260	snprintf (str, MXSTR,
2261	"writeEvt: Could not open a file for run %d (runOpen failed)", irun);
2262	factOut (kError, 502, str);
2263	runCtrl[j].fileId = 91;
2264	} else {
2265	snprintf (str, MXSTR, "writeEvt: Opened new file for run %d (evt %d)",
2266	irun, ievt);
2267	factOut (kInfo, -1, str);
2268	runCtrl[j].fileId = 0;
2269	}
2270
2271	}
2272
2273	if (runCtrl[j].fileId != 0) {
2274	if (runCtrl[j].fileId < 0) {
2275	snprintf (str, MXSTR,
2276	"writeEvt: Never opened file for run %d", irun);
2277	factOut (kError, 123, str);
2278	} else if (runCtrl[j].fileId < 100) {
2279	snprintf (str, MXSTR, "writeEvt: File for run %d is closed",
2280	irun);
2281	factOut (kWarn, 123, str);
2282	runCtrl[j].fileId += 100;
2283	} else {
2284	snprintf (str, MXSTR, "writeEvt: File for run %d is closed",
2285	irun);
2286	factOut (kDebug, 123, str);
2287	}
2288	evtCtrl.evtStat[k0] = 9903;
2289	gi.wrtErr++;
2290	} else {
2291	// snprintf (str, MXSTR,"write event %d size %d",ievt,sizeof (mBuffer[id]));
2292	// factOut (kInfo, 504, str);
2293	int i = runWrite (runCtrl[j].fileHd, mBuffer[id].fEvent,
2294	sizeof (mBuffer[id]));
2295	if (i >= 0) {
2296	runCtrl[j].lastTime = g_actTime;
2297	runCtrl[j].actEvt++;
2298	evtCtrl.evtStat[k0] = 9901;
2299	snprintf (str, MXSTR,
2300	"%5d successfully wrote for run %d id %5d",
2301	ievt, irun, k0);
2302	factOut (kDebug, 504, str);
2303	// gj.writEvt++ ;
2304	} else {
2305	snprintf (str, MXSTR, "writeEvt: Writing event for run %d failed (runWrite)",
2306	irun);
2307	factOut (kError, 503, str);
2308	evtCtrl.evtStat[k0] = 9902;
2309	gi.wrtErr++;
2310	}
2311
2312	if (i < 0
2313	\|\| runCtrl[j].lastTime < g_actTime - 300
2314	\|\| runCtrl[j].closeTime < g_actTime
2315	\|\| runCtrl[j].maxEvt < runCtrl[j].actEvt) {
2316	int ii = 0;
2317	if (i < 0)
2318	ii = 1;
2319	else if (runCtrl[j].closeTime < g_actTime)
2320	ii = 2;
2321	else if (runCtrl[j].lastTime < g_actTime - 300)
2322	ii = 3;
2323	else if (runCtrl[j].maxEvt <= runCtrl[j].actEvt)
2324	ii = 4;
2325
2326
2327
2328	//close run for whatever reason
2329	if (runCtrl[j].runId == gi_myRun)
2330	gi_myRun = g_actTime;
2331
2332	if (runCtrl[j].procId == 0) {
2333	runFinish1 (runCtrl[j].runId);
2334	runCtrl[j].procId = 92;
2335	}
2336
2337	runCtrl[j].closeTime = g_actTime - 1;
2338	i = runClose (runCtrl[j].fileHd, &runTail[j],
2339	sizeof (runTail[j]));
2340	if (i < 0) {
2341	snprintf (str, MXSTR, "writeEvt: Error closing run %d (runClose[1],i=%d)",
2342	runCtrl[j].runId, i);
2343	factOut (kError, 503, str);
2344	runCtrl[j].fileId = 92;
2345	} else {
2346	snprintf (str, MXSTR, "writeEvt: Closed run %d (ii[1]=%d)", irun,
2347	ii);
2348	factOut (kInfo, 503, str);
2349	runCtrl[j].fileId = 93;
2350	}
2351	}
2352	}
2353	}
2354	} else if (evtCtrl.evtStat[k0] > 0 && evtCtrl.evtStat[k0] < 9000)
2355	numWait++;
2356	}
2357
2358	//check if we should close a run (mainly when no event pending)
2359	//ETIENNE but first figure out which one is the latest run with a complete event.
2360	//i.e. max run Id and lastEvt >= 0
2361	//this condition is sufficient because all pending events were written already in the loop just above
2362	unsigned int maxStartedRun = 0;
2363	for (j=0;j<MAX_RUN;j++)
2364	{
2365	if ((runCtrl[j].runId > maxStartedRun) &&
2366	(runCtrl[j].lastEvt > -1) &&
2367	(runCtrl[j].runId != 0))
2368	maxStartedRun = runCtrl[j].runId;
2369	}
2370	// snprintf(str, MXSTR, "Maximum runId: %d", maxStartedRun);
2371	// factOut(kInfo, 000, str);
2372	//Also check if some files will never be opened
2373	//EDIT: this is completely useless, because as run Numbers are taken from FADs board,
2374	//I will never get run numbers for which no file is to be opened
2375	for (j=0;j<MAX_RUN;j++)
2376	{
2377	if ((runCtrl[j].fileId < 0) &&
2378	(runCtrl[j].runId < maxStartedRun) &&
2379	(runCtrl[j].runId != 0))
2380	{
2381	snprintf (str, MXSTR, "writeEvt: No file will be opened for run %ud. Last run: %ud (started)", runCtrl[j].runId, maxStartedRun);
2382	factOut (kInfo, 000, str);
2383	;//TODO notify that this run will never be opened
2384	}
2385	}
2386	for (j = 0; j < MAX_RUN; j++) {
2387	if (runCtrl[j].fileId == 0
2388	&& (runCtrl[j].closeTime < g_actTime
2389	\|\| runCtrl[j].lastTime < g_actTime - 300
2390	\|\| runCtrl[j].maxEvt <= runCtrl[j].actEvt
2391	\|\| (runCtrl[j].runId < maxStartedRun && runCtrl[j].runId != 0))) //ETIENNE added the condition at this line. dunno what to do with run 0: skipping it
2392	{
2393	if (runCtrl[j].runId == gi_myRun)
2394	gi_myRun = g_actTime;
2395	int ii = 0;
2396	if (runCtrl[j].closeTime < g_actTime)
2397	ii = 2;
2398	else if (runCtrl[j].lastTime < g_actTime - 300)
2399	ii = 3;
2400	else if (runCtrl[j].maxEvt <= runCtrl[j].actEvt)
2401	ii = 4;
2402
2403	if (runCtrl[j].procId == 0) {
2404	runFinish1 (runCtrl[j].runId);
2405	runCtrl[j].procId = 92;
2406	}
2407
2408	runCtrl[j].closeTime = g_actTime - 1;
2409	int i = runClose (runCtrl[j].fileHd, &runTail[j],
2410	sizeof (runTail[j]));
2411	if (i < 0) {
2412	snprintf (str, MXSTR, "writeEvt: Error closing run %d (runClose[2],i=%d)",
2413	runCtrl[j].runId, i);
2414	factOut (kError, 506, str);
2415	runCtrl[j].fileId = 94;
2416	} else {
2417	snprintf (str, MXSTR, "writeEvt: Closed run %d (ii[2]=%d)",
2418	runCtrl[j].runId, ii);
2419	factOut (kInfo, 507, str);
2420	runCtrl[j].fileId = 95;
2421	}
2422	}
2423	}
2424
2425	if (numWrite == 0) {
2426	//seems we have nothing to do, so sleep a little
2427	xwait.tv_sec = 0;
2428	xwait.tv_nsec = 2000000; // sleep for ~2 msec
2429	nanosleep (&xwait, NULL);
2430	}
2431
2432	if (gj.readStat < -10 && numWait == 0) { //nothing left to do
2433	snprintf (str, MXSTR, "Finish Write Process ...");
2434	factOut (kInfo, -1, str);
2435	gw_runStat = -22; //==> we should exit
2436	gj.writStat = -22; //==> we should exit
2437	goto closerun;
2438	}
2439	gw_runStat = gi_runStat;
2440	gj.writStat = gj.readStat;
2441
2442	}
2443
2444	//must close all open files ....
2445	snprintf (str, MXSTR, "Abort Writing Process ...");
2446	factOut (kInfo, -1, str);
2447
2448	closerun:
2449	snprintf (str, MXSTR, "Close all open files ...");
2450	factOut (kInfo, -1, str);
2451	for (j = 0; j < MAX_RUN; j++)
2452	if (runCtrl[j].fileId == 0) {
2453	if (runCtrl[j].runId == gi_myRun)
2454	gi_myRun = g_actTime;
2455
2456	if (runCtrl[j].procId == 0) {
2457	runFinish1 (runCtrl[j].runId);
2458	runCtrl[j].procId = 92;
2459	}
2460
2461	runCtrl[j].closeTime = g_actTime - 1;
2462	int i = runClose (runCtrl[j].fileHd, &runTail[j], sizeof (runTail[j]));
2463	int ii = 0;
2464	if (runCtrl[j].closeTime < g_actTime)
2465	ii = 2;
2466	else if (runCtrl[j].lastTime < g_actTime - 300)
2467	ii = 3;
2468	else if (runCtrl[j].maxEvt <= runCtrl[j].actEvt)
2469	ii = 4;
2470	if (i < 0) {
2471	snprintf (str, MXSTR, "writeEvt: Error closing run %d (runClose[3],i=%d)",
2472	runCtrl[j].runId, i);
2473	factOut (kError, 506, str);
2474	runCtrl[j].fileId = 96;
2475	} else {
2476	snprintf (str, MXSTR, "writeEvt: Closed run %d (ii[3]=%d)", runCtrl[j].runId,
2477	ii);
2478	factOut (kInfo, 507, str);
2479	runCtrl[j].fileId = 97;
2480	}
2481	}
2482
2483	gw_runStat = -99;
2484	gj.writStat = -99;
2485	snprintf (str, MXSTR, "Exit Writing Process ...");
2486	factOut (kInfo, -1, str);
2487	return 0;
2488
2489
2490
2491
2492	} /-----------------------------------------------------------------/
2493
2494
2495
2496
2497	void
2498	StartEvtBuild ()
2499	{
2500
2501	int i, /j,/ imax, status/, th_ret[50]/;
2502	pthread_t thread[50];
2503	struct timespec xwait;
2504
2505	gi_runStat = gp_runStat = gw_runStat = 0;
2506	gj.readStat = gj.procStat = gj.writStat = 0;
2507
2508	snprintf (str, MXSTR, "Starting EventBuilder V15.07 A");
2509	factOut (kInfo, -1, str);
2510
2511	//initialize run control logics
2512	for (i = 0; i < MAX_RUN; i++) {
2513	runCtrl[i].runId = 0;
2514	runCtrl[i].fileId = -2;
2515	}
2516
2517	//prepare for subProcesses
2518	gi_maxSize = g_maxSize;
2519	if (gi_maxSize <= 0)
2520	gi_maxSize = 1;
2521
2522	gi_maxProc = g_maxProc;
2523	if (gi_maxProc <= 0 \|\| gi_maxProc > 90) {
2524	snprintf (str, MXSTR, "Illegal number of processes %d", gi_maxProc);
2525	factOut (kFatal, 301, str);
2526	gi_maxProc = 1;
2527	}
2528	//partially initialize event control logics
2529	evtCtrl.frstPtr = 0;
2530	evtCtrl.lastPtr = 0;
2531
2532	//start all threads (more to come) when we are allowed to ....
2533	while (g_runStat == 0) {
2534	xwait.tv_sec = 0;
2535	xwait.tv_nsec = 10000000; // sleep for ~10 msec
2536	nanosleep (&xwait, NULL);
2537	}
2538
2539	i = 0;
2540	/th_ret[i] =/ pthread_create (&thread[i], NULL, readFAD, NULL);
2541	i++;
2542	/th_ret[i] =/ pthread_create (&thread[i], NULL, procEvt, NULL);
2543	i++;
2544	/th_ret[i] =/ pthread_create (&thread[i], NULL, writeEvt, NULL);
2545	i++;
2546	imax = i;
2547
2548
2549	#ifdef BILAND
2550	xwait.tv_sec = 30;;
2551	xwait.tv_nsec = 0; // sleep for ~20sec
2552	nanosleep (&xwait, NULL);
2553
2554	printf ("close all runs in 2 seconds\n");
2555
2556	CloseRunFile (0, time (NULL) + 2, 0);
2557
2558	xwait.tv_sec = 1;;
2559	xwait.tv_nsec = 0; // sleep for ~20sec
2560	nanosleep (&xwait, NULL);
2561
2562	printf ("setting g_runstat to -1\n");
2563
2564	g_runStat = -1;
2565	#endif
2566
2567
2568	//wait for all threads to finish
2569	for (i = 0; i < imax; i++) {
2570	/j =/ pthread_join (thread[i], (void **) &status);
2571	}
2572
2573	} /-----------------------------------------------------------------/
2574
2575
2576
2577
2578
2579
2580
2581
2582
2583
2584
2585
2586
2587
2588
2589	/-----------------------------------------------------------------/
2590	/-----------------------------------------------------------------/
2591	/-----------------------------------------------------------------/
2592	/-----------------------------------------------------------------/
2593	/-----------------------------------------------------------------/
2594
2595	#ifdef BILAND
2596
2597	int
2598	subProcEvt (int threadID, PEVNT_HEADER * fadhd, EVENT * event,
2599	int8_t * buffer)
2600	{
2601	printf ("called subproc %d\n", threadID);
2602	return threadID + 1;
2603	}
2604
2605
2606
2607
2608	/-----------------------------------------------------------------/
2609	/-----------------------------------------------------------------/
2610	/-----------------------------------------------------------------/
2611	/-----------------------------------------------------------------/
2612	/-----------------------------------------------------------------/
2613
2614
2615
2616
2617	FileHandle_t
2618	runOpen (uint32_t irun, RUN_HEAD * runhd, size_t len)
2619	{
2620	return 1;
2621	};
2622
2623	int
2624	runWrite (FileHandle_t fileHd, EVENT * event, size_t len)
2625	{
2626	return 1;
2627	usleep (10000);
2628	return 1;
2629	}
2630
2631
2632	//{ return 1; } ;
2633
2634	int
2635	runClose (FileHandle_t fileHd, RUN_TAIL * runth, size_t len)
2636	{
2637	return 1;
2638	};
2639
2640
2641
2642
2643	int
2644	eventCheck (uint32_t runNr, PEVNT_HEADER * fadhd, EVENT * event)
2645	{
2646	int i = 0;
2647
2648	// printf("------------%d\n",ntohl(fadhd[7].fad_evt_counter) );
2649	// for (i=0; i<NBOARDS; i++) {
2650	// printf("b=%2d,=%5d\n",i,fadhd[i].board_id);
2651	// }
2652	return 0;
2653	}
2654
2655
2656	void
2657	factStatNew (EVT_STAT gi)
2658	{
2659	int i;
2660
2661	//for (i=0;i<MAX_SOCK;i++) {
2662	// printf("%4d",gi.numRead[i]);
2663	// if (i%20 == 0 ) printf("\n");
2664	//}
2665	}
2666
2667	void
2668	gotNewRun (int runnr, PEVNT_HEADER * headers)
2669	{
2670	printf ("got new run %d\n", runnr);
2671	return;
2672	}
2673
2674	void
2675	factStat (GUI_STAT gj)
2676	{
2677	// printf("stat: bfr%5lu skp%4lu free%4lu (tot%7lu) mem%12lu rd%12lu %3lu\n",
2678	// array[0],array[1],array[2],array[3],array[4],array[5],array[6]);
2679	}
2680
2681
2682	void
2683	debugRead (int isock, int ibyte, int32_t event, int32_t ftmevt, int32_t runnr,
2684	int state, uint32_t tsec, uint32_t tusec)
2685	{
2686	// printf("%3d %5d %9d %3d %12d\n",isock, ibyte, event, state, tusec) ;
2687	}
2688
2689
2690
2691	void
2692	debugStream (int isock, void *buf, int len)
2693	{
2694	}
2695
2696	void
2697	debugHead (int i, int j, void *buf)
2698	{
2699	}
2700
2701
2702	void
2703	factOut (int severity, int err, char *message)
2704	{
2705	static FILE *fd;
2706	static int file = 0;
2707
2708	if (file == 0) {
2709	printf ("open file\n");
2710	fd = fopen ("x.out", "w+");
2711	file = 999;
2712	}
2713
2714	fprintf (fd, "%3d %3d \| %s \n", severity, err, message);
2715
2716	if (severity != kDebug)
2717	printf ("%3d %3d \| %s\n", severity, err, message);
2718	}
2719
2720
2721
2722	int
2723	main ()
2724	{
2725	int i, b, c, p;
2726	char ipStr[100];
2727	struct in_addr IPaddr;
2728
2729	g_maxMem = 1024 * 1024; //MBytes
2730	//g_maxMem = g_maxMem * 1024 *10 ; //10GBytes
2731	g_maxMem = g_maxMem * 200; //100MBytes
2732
2733	g_maxProc = 20;
2734	g_maxSize = 30000;
2735
2736	g_runStat = 40;
2737
2738	i = 0;
2739
2740	// version for standard crates
2741	//for (c=0; c<4,c++) {
2742	// for (b=0; b<10; b++) {
2743	// sprintf(ipStr,"10.0.%d.%d",128+c,128+b)
2744	//
2745	// inet_pton(PF_INET, ipStr, &IPaddr) ;
2746	//
2747	// g_port[i].sockAddr.sin_family = PF_INET;
2748	// g_port[i].sockAddr.sin_port = htons(5000) ;
2749	// g_port[i].sockAddr.sin_addr = IPaddr ;
2750	// g_port[i].sockDef = 1 ;
2751	// i++ ;
2752	// }
2753	//}
2754	//
2755	//version for PC-test *
2756	for (c = 0; c < 4; c++) {
2757	for (b = 0; b < 10; b++) {
2758	sprintf (ipStr, "10.0.%d.11", 128 + c);
2759	if (c < 2)
2760	sprintf (ipStr, "10.0.%d.11", 128);
2761	else
2762	sprintf (ipStr, "10.0.%d.11", 131);
2763	// if (c==0) sprintf(ipStr,"10.0.100.11") ;
2764
2765	inet_pton (PF_INET, ipStr, &IPaddr);
2766	p = 31919 + 100 * c + 10 * b;
2767
2768
2769	g_port[i].sockAddr.sin_family = PF_INET;
2770	g_port[i].sockAddr.sin_port = htons (p);
2771	g_port[i].sockAddr.sin_addr = IPaddr;
2772	g_port[i].sockDef = 1;
2773
2774	i++;
2775	}
2776	}
2777
2778
2779	//g_port[17].sockDef =-1 ;
2780	//g_actBoards-- ;
2781
2782	StartEvtBuild ();
2783
2784	return 0;
2785
2786	}
2787	#endif

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