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FedRawDataInputSource.cc
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1 #include <fcntl.h>
2 #include <iomanip>
3 #include <iostream>
4 #include <sstream>
5 #include <sys/types.h>
6 #include <sys/file.h>
7 #include <sys/time.h>
8 #include <unistd.h>
9 #include <vector>
10 #include <fstream>
11 #include <zlib.h>
12 #include <stdio.h>
13 #include <chrono>
14 
15 #include <boost/algorithm/string.hpp>
16 #include <boost/filesystem/fstream.hpp>
17 
18 
21 
28 
32 
34 
38 
40 
43 
44 
45 //JSON file reader
47 
48 #include <boost/lexical_cast.hpp>
49 
50 using namespace jsoncollector;
51 
53  edm::InputSourceDescription const& desc) :
54  edm::RawInputSource(pset, desc),
55  defPath_(pset.getUntrackedParameter<std::string> ("buDefPath", std::string(getenv("CMSSW_BASE"))+"/src/EventFilter/Utilities/plugins/budef.jsd")),
56  eventChunkSize_(pset.getUntrackedParameter<unsigned int> ("eventChunkSize",16)*1048576),
57  eventChunkBlock_(pset.getUntrackedParameter<unsigned int> ("eventChunkBlock",eventChunkSize_/1048576)*1048576),
58  numBuffers_(pset.getUntrackedParameter<unsigned int> ("numBuffers",1)),
59  getLSFromFilename_(pset.getUntrackedParameter<bool> ("getLSFromFilename", true)),
60  verifyAdler32_(pset.getUntrackedParameter<bool> ("verifyAdler32", true)),
61  useL1EventID_(pset.getUntrackedParameter<bool> ("useL1EventID", false)),
62  testModeNoBuilderUnit_(edm::Service<evf::EvFDaqDirector>()->getTestModeNoBuilderUnit()),
63  runNumber_(edm::Service<evf::EvFDaqDirector>()->getRunNumber()),
64  fuOutputDir_(edm::Service<evf::EvFDaqDirector>()->baseRunDir()),
65  daqProvenanceHelper_(edm::TypeID(typeid(FEDRawDataCollection))),
66  eventID_(),
67  processHistoryID_(),
68  currentLumiSection_(0),
69  tcds_pointer_(0),
70  eventsThisLumi_(0),
71  dpd_(nullptr)
72 {
73  char thishost[256];
74  gethostname(thishost, 255);
75  edm::LogInfo("FedRawDataInputSource") << "Construction. read-ahead chunk size -: "
76  << std::endl << (eventChunkSize_/1048576)
77  << " MB on host " << thishost;
79  edm::LogInfo("FedRawDataInputSource") << "Test mode is ON!";
80 
82  setNewRun();
85 
86  dpd_ = new DataPointDefinition();
87  std::string defLabel = "data";
88  DataPointDefinition::getDataPointDefinitionFor(defPath_, dpd_,&defLabel);
89 
90  //make sure that chunk size is N * block size
95 
96  if (!numBuffers_)
97  throw cms::Exception("FedRawDataInputSource::FedRawDataInputSource") <<
98  "no reading enabled with numBuffers parameter 0";
99 
102 
103  //het handles to DaqDirector and FastMonitoringService because it isn't acessible in readSupervisor thread
104 
105  try {
107  } catch (...){
108  edm::LogWarning("FedRawDataInputSource") << "FastMonitoringService not found";
109  assert(0);//test
110  }
111 
112  try {
114  //set DaqDirector to delete files in preGlobalEndLumi callback
117  if (fms_) daqDirector_->setFMS(fms_);
118  } catch (...){
119  edm::LogWarning("FedRawDataInputSource") << "EvFDaqDirector not found";
120  assert(0);//test
121  }
122 
123  //should delete chunks when run stops
124  for (unsigned int i=0;i<numBuffers_;i++) {
126  }
127 
128  quit_threads_ = false;
129 
130  for (unsigned int i=0;i<numConcurrentReads_;i++)
131  {
132  std::unique_lock<std::mutex> lk(startupLock_);
133  //issue a memory fence here and in threads (constructor was segfaulting without this)
134  thread_quit_signal.push_back(false);
135  workerJob_.push_back(ReaderInfo(nullptr,nullptr));
136  cvReader_.push_back(new std::condition_variable);
137  threadInit_.store(false,std::memory_order_release);
138  workerThreads_.push_back(new std::thread(&FedRawDataInputSource::readWorker,this,i));
139  startupCv_.wait(lk);
140  }
141 
142  runAuxiliary()->setProcessHistoryID(processHistoryID_);
143 }
144 
146 {
147  quit_threads_=true;
148 
149  //delete any remaining open files
150  for (auto it = filesToDelete_.begin();it!=filesToDelete_.end();it++) {
151  deleteFile(it->second->fileName_);
152  delete it->second;
153  }
155  readSupervisorThread_->join();
156  }
157  else {
158  //join aux threads in case the supervisor thread was not started
159  for (unsigned int i=0;i<workerThreads_.size();i++) {
160  std::unique_lock<std::mutex> lk(mReader_);
161  thread_quit_signal[i]=true;
162  cvReader_[i]->notify_one();
163  lk.unlock();
164  workerThreads_[i]->join();
165  delete workerThreads_[i];
166  }
167  }
168  for (unsigned int i=0;i<numConcurrentReads_;i++) delete cvReader_[i];
169  /*
170  for (unsigned int i=0;i<numConcurrentReads_+1;i++) {
171  InputChunk *ch;
172  while (!freeChunks_.try_pop(ch)) {}
173  delete ch;
174  }
175  */
176 }
177 
179 {
181  {
182  //this thread opens new files and dispatches reading to worker readers
183  //threadInit_.store(false,std::memory_order_release);
184  std::unique_lock<std::mutex> lk(startupLock_);
185  readSupervisorThread_.reset(new std::thread(&FedRawDataInputSource::readSupervisor,this));
187  startupCv_.wait(lk);
188  }
189  switch (nextEvent() ) {
191 
192  //maybe create EoL file in working directory before ending run
193  struct stat buf;
194  if ( currentLumiSection_ > 0 ) {
195  bool eolFound = (stat(daqDirector_->getEoLSFilePathOnBU(currentLumiSection_).c_str(), &buf) == 0);
196  if (eolFound) {
198  bool found = (stat(fuEoLS.c_str(), &buf) == 0);
199  if ( !found ) {
201  int eol_fd = open(fuEoLS.c_str(), O_RDWR|O_CREAT, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP|S_IROTH|S_IWOTH);
202  close(eol_fd);
204  }
205  }
206  }
207  //also create EoR file in FU data directory
208  bool eorFound = (stat(daqDirector_->getEoRFilePathOnFU().c_str(),&buf) == 0);
209  if (!eorFound) {
210  int eor_fd = open(daqDirector_->getEoRFilePathOnFU().c_str(), O_RDWR|O_CREAT, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP|S_IROTH|S_IWOTH);
211  close(eor_fd);
212  }
214  eventsThisLumi_=0;
216  edm::LogInfo("FedRawDataInputSource") << "----------------RUN ENDED----------------";
217  return false;
218  }
220  //this is not reachable
221  return true;
222  }
224  //std::cout << "--------------NEW LUMI---------------" << std::endl;
225  return true;
226  }
227  default: {
228  if (!getLSFromFilename_) {
229  //get new lumi from file header
230  if (event_->lumi() > currentLumiSection_) {
232  eventsThisLumi_=0;
233  maybeOpenNewLumiSection( event_->lumi() );
234  }
235  }
236  eventRunNumber_=event_->run();
237  L1EventID_ = event_->event();
238 
239  setEventCached();
240 
241  return true;
242  }
243  }
244 }
245 
246 void FedRawDataInputSource::maybeOpenNewLumiSection(const uint32_t lumiSection)
247 {
249  || luminosityBlockAuxiliary()->luminosityBlock() != lumiSection) {
250 
251  if ( currentLumiSection_ > 0 ) {
252  const std::string fuEoLS =
254  struct stat buf;
255  bool found = (stat(fuEoLS.c_str(), &buf) == 0);
256  if ( !found ) {
258  int eol_fd = open(fuEoLS.c_str(), O_RDWR|O_CREAT, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP|S_IROTH|S_IWOTH);
259  close(eol_fd);
261  }
262  }
263 
264  currentLumiSection_ = lumiSection;
265 
267 
268  timeval tv;
269  gettimeofday(&tv, 0);
270  const edm::Timestamp lsopentime( (unsigned long long) tv.tv_sec * 1000000 + (unsigned long long) tv.tv_usec );
271 
272  edm::LuminosityBlockAuxiliary* lumiBlockAuxiliary =
274  runAuxiliary()->run(),
275  lumiSection, lsopentime,
277 
278  setLuminosityBlockAuxiliary(lumiBlockAuxiliary);
279  luminosityBlockAuxiliary()->setProcessHistoryID(processHistoryID_);
280 
281  edm::LogInfo("FedRawDataInputSource") << "New lumi section was opened. LUMI -: "<< lumiSection;
282  }
283 }
284 
286 {
288  while ((status = getNextEvent())==evf::EvFDaqDirector::noFile)
289  {
290  if (edm::shutdown_flag.load(std::memory_order_relaxed)) break;
291  }
292  return status;
293 }
294 
296 {
297  const size_t headerSize[4] = {0,2*sizeof(uint32),(4 + 1024) * sizeof(uint32),7*sizeof(uint32)}; //size per version of FRDEventHeader
298 
300  if (!currentFile_)
301  {
302  if (!streamFileTrackerPtr_) {
306  }
307 
309  if (!fileQueue_.try_pop(currentFile_))
310  {
311  //sleep until wakeup (only in single-buffer mode) or timeout
312  std::unique_lock<std::mutex> lkw(mWakeup_);
313  if (cvWakeup_.wait_for(lkw, std::chrono::milliseconds(100)) == std::cv_status::timeout || !currentFile_)
315  }
316  status = currentFile_->status_;
317  if ( status == evf::EvFDaqDirector::runEnded)
318  {
319  delete currentFile_;
320  currentFile_=nullptr;
321  return status;
322  }
323 
324  else if (status == evf::EvFDaqDirector::newLumi)
325  {
326  if (getLSFromFilename_) {
329  eventsThisLumi_=0;
331  }
332  }
333  else {//let this be picked up from next event
335  }
336 
337  delete currentFile_;
338  currentFile_=nullptr;
339  return status;
340  }
341  else if (status == evf::EvFDaqDirector::newFile) {
344  }
345  else
346  assert(0);
347  }
348 
349  //file is empty
350  if (!currentFile_->fileSize_) {
351  //try to open new lumi
352  assert(currentFile_->nChunks_==0);
353  if (getLSFromFilename_)
356  eventsThisLumi_=0;
358  }
359  //immediately delete empty file
361  delete currentFile_;
362  currentFile_=nullptr;
364  }
365 
366  //file is finished
368  //release last chunk (it is never released elsewhere)
371  {
372  throw cms::Exception("RuntimeError")
373  << "Fully processed " << currentFile_->nProcessed_
374  << " from the file " << currentFile_->fileName_
375  << " but according to BU JSON there should be "
376  << currentFile_->nEvents_ << " events";
377  }
378  //try to wake up supervisor thread which might be sleeping waiting for the free chunk
379  if (singleBufferMode_) {
380  std::unique_lock<std::mutex> lkw(mWakeup_);
381  cvWakeup_.notify_one();
382  }
385  //put the file in pending delete list;
386  std::unique_lock<std::mutex> lkw(fileDeleteLock_);
387  filesToDelete_.push_back(std::pair<int,InputFile*>(currentFileIndex_,currentFile_));
388  }
389  else {
390  //in single-thread and stream jobs, events are already processed
392  delete currentFile_;
393  }
394  currentFile_=nullptr;
396  }
397 
398 
399  //file is too short
401  {
402  throw cms::Exception("FedRawDataInputSource::cacheNextEvent") <<
403  "Premature end of input file while reading event header";
404  }
405  if (singleBufferMode_) {
406 
407  //should already be there
409  usleep(10000);
411  }
412 
413  unsigned char *dataPosition = currentFile_->chunks_[0]->buf_+ currentFile_->chunkPosition_;
414 
415  //conditions when read amount is not sufficient for the header to fit
416  if (!bufferInputRead_ || bufferInputRead_ < headerSize[detectedFRDversion_]
417  || eventChunkSize_ - currentFile_->chunkPosition_ < headerSize[detectedFRDversion_])
418  {
420 
421  if (detectedFRDversion_==0) {
422  detectedFRDversion_=*((uint32*)dataPosition);
423  assert(detectedFRDversion_>=1 && detectedFRDversion_<=3);
424  }
425 
426  //recalculate chunk position
427  dataPosition = currentFile_->chunks_[0]->buf_+ currentFile_->chunkPosition_;
428  if ( bufferInputRead_ < headerSize[detectedFRDversion_])
429  {
430  throw cms::Exception("FedRawDataInputSource::cacheNextEvent") <<
431  "Premature end of input file while reading event header";
432  }
433  }
434 
435  event_.reset( new FRDEventMsgView(dataPosition) );
436  if (event_->size()>eventChunkSize_) {
437  throw cms::Exception("FedRawDataInputSource::nextEvent")
438  << " event id:"<< event_->event()<< " lumi:" << event_->lumi()
439  << " run:" << event_->run() << " of size:" << event_->size()
440  << " bytes does not fit into a chunk of size:" << eventChunkSize_ << " bytes";
441  }
442 
443  const uint32_t msgSize = event_->size()-headerSize[detectedFRDversion_];
444 
446  {
447  throw cms::Exception("FedRawDataInputSource::nextEvent") <<
448  "Premature end of input file while reading event data";
449  }
450  if (eventChunkSize_ - currentFile_->chunkPosition_ < msgSize) {
452  //recalculate chunk position
453  dataPosition = currentFile_->chunks_[0]->buf_+ currentFile_->chunkPosition_;
454  event_.reset( new FRDEventMsgView(dataPosition) );
455  }
456  currentFile_->bufferPosition_ += event_->size();
457  currentFile_->chunkPosition_ += event_->size();
458  //last chunk is released when this function is invoked next time
459 
460  }
461  //multibuffer mode:
462  else
463  {
464  //wait for the current chunk to become added to the vector
466  usleep(10000);
468  }
469 
470  //check if header is at the boundary of two chunks
471  chunkIsFree_ = false;
472  unsigned char *dataPosition;
473 
474  //read header, copy it to a single chunk if necessary
475  bool chunkEnd = currentFile_->advance(dataPosition,headerSize[detectedFRDversion_]);
476 
477  event_.reset( new FRDEventMsgView(dataPosition) );
478  if (event_->size()>eventChunkSize_) {
479  throw cms::Exception("FedRawDataInputSource::nextEvent")
480  << " event id:"<< event_->event()<< " lumi:" << event_->lumi()
481  << " run:" << event_->run() << " of size:" << event_->size()
482  << " bytes does not fit into a chunk of size:" << eventChunkSize_ << " bytes";
483  }
484 
485  const uint32_t msgSize = event_->size()-headerSize[detectedFRDversion_];
486 
488  {
489  throw cms::Exception("FedRawDataInputSource::nextEvent") <<
490  "Premature end of input file while reading event data";
491  }
492 
493  if (chunkEnd) {
494  //header was at the chunk boundary, we will have to move payload as well
495  currentFile_->moveToPreviousChunk(msgSize,headerSize[detectedFRDversion_]);
496  chunkIsFree_ = true;
497  }
498  else {
499  //header was contiguous, but check if payload fits the chunk
500  if (eventChunkSize_ - currentFile_->chunkPosition_ < msgSize) {
501  //rewind to header start position
502  currentFile_->rewindChunk(headerSize[detectedFRDversion_]);
503  //copy event to a chunk start and move pointers
504  chunkEnd = currentFile_->advance(dataPosition,headerSize[detectedFRDversion_]+msgSize);
505  assert(chunkEnd);
506  chunkIsFree_=true;
507  //header is moved
508  event_.reset( new FRDEventMsgView(dataPosition) );
509  }
510  else {
511  //everything is in a single chunk, only move pointers forward
512  chunkEnd = currentFile_->advance(dataPosition,msgSize);
513  assert(!chunkEnd);
514  chunkIsFree_=false;
515  }
516  }
517  }//end multibuffer mode
518 
519  if ( verifyAdler32_ && event_->version() >= 3 )
520  {
521  uint32_t adler = adler32(0L,Z_NULL,0);
522  adler = adler32(adler,(Bytef*)event_->payload(),event_->eventSize());
523 
524  if ( adler != event_->adler32() ) {
525  throw cms::Exception("FedRawDataInputSource::nextEvent") <<
526  "Found a wrong Adler32 checksum: expected 0x" << std::hex << event_->adler32() <<
527  " but calculated 0x" << adler;
528  }
529  }
531 
533 }
534 
536 {
537  const boost::filesystem::path filePath(fileName);
538  if (!testModeNoBuilderUnit_) {
539  LogDebug("FedRawDataInputSource") << "Deleting input file -:" << fileName;
540  try {
541  //sometimes this fails but file gets deleted
542  boost::filesystem::remove(filePath);
543  }
544  catch (const boost::filesystem::filesystem_error& ex)
545  {
546  edm::LogError("FedRawDataInputSource") << " - deleteFile BOOST FILESYSTEM ERROR CAUGHT -: " << ex.what()
547  << ". Trying again.";
548  usleep(100000);
549  try {
550  boost::filesystem::remove(filePath);
551  }
552  catch (...) {/*file gets deleted first time but exception is still thrown*/}
553  }
554  catch (std::exception& ex)
555  {
556  edm::LogError("FedRawDataInputSource") << " - deleteFile std::exception CAUGHT -: " << ex.what()
557  << ". Trying again.";
558  usleep(100000);
559  try {
560  boost::filesystem::remove(filePath);
561  } catch (...) {/*file gets deleted first time but exception is still thrown*/}
562  }
563  } else {
564  renameToNextFree(fileName);
565  }
566 }
567 
568 
570 {
571  std::auto_ptr<FEDRawDataCollection> rawData(new FEDRawDataCollection);
572  edm::Timestamp tstamp = fillFEDRawDataCollection(rawData);
573  if (useL1EventID_){
575  edm::EventAuxiliary aux(eventID_, processGUID(), tstamp, true,
578  makeEvent(eventPrincipal, aux);
579  }
580  else if(tcds_pointer_==0){
581  assert(GTPEventID_);
583  edm::EventAuxiliary aux(eventID_, processGUID(), tstamp, true,
586  makeEvent(eventPrincipal, aux);
587  }
588  else{
589  evf::evtn::TCDSRecord record((unsigned char *)(tcds_pointer_));
592  processGUID());
594  makeEvent(eventPrincipal, aux);
595  }
596 
597 
598 
601 
602  //FWCore/Sources DaqProvenanceHelper before 7_1_0_pre3
603  //eventPrincipal.put(daqProvenanceHelper_.constBranchDescription_, edp,
604  // daqProvenanceHelper_.dummyProvenance_);
605 
606  eventPrincipal.put(daqProvenanceHelper_.branchDescription(), edp,
608 
609  eventsThisLumi_++;
610 
611  //this old file check runs no more often than every 10 events
612  if (!((currentFile_->nProcessed_-1)%(checkEvery_))) {
613  //delete files that are not in processing
614  std::unique_lock<std::mutex> lkw(fileDeleteLock_);
615  auto it = filesToDelete_.begin();
616  while (it!=filesToDelete_.end()) {
617  bool fileIsBeingProcessed = false;
618  for (unsigned int i=0;i<nStreams_;i++) {
619  if (it->first == streamFileTrackerPtr_->at(i)) {
620  fileIsBeingProcessed = true;
621  break;
622  }
623  }
624  if (!fileIsBeingProcessed) {
625  deleteFile(it->second->fileName_);
626  delete it->second;
627  it = filesToDelete_.erase(it);
628  }
629  else it++;
630  }
631 
632  }
634  chunkIsFree_=false;
635  return;
636 }
637 
638 edm::Timestamp FedRawDataInputSource::fillFEDRawDataCollection(std::auto_ptr<FEDRawDataCollection>& rawData)
639 {
640  edm::Timestamp tstamp;
641  uint32_t eventSize = event_->eventSize();
642  char* event = (char*)event_->payload();
643  GTPEventID_=0;
644  tcds_pointer_ = 0;
645  while (eventSize > 0) {
646  eventSize -= sizeof(fedt_t);
647  const fedt_t* fedTrailer = (fedt_t*) (event + eventSize);
648  const uint32_t fedSize = FED_EVSZ_EXTRACT(fedTrailer->eventsize) << 3; //trailer length counts in 8 bytes
649  eventSize -= (fedSize - sizeof(fedh_t));
650  const fedh_t* fedHeader = (fedh_t *) (event + eventSize);
651  const uint16_t fedId = FED_SOID_EXTRACT(fedHeader->sourceid);
652  if (fedId == FEDNumbering::MINTCDSuTCAFEDID) {
653  tcds_pointer_ = (unsigned char *)(event + eventSize );
654  }
655  if (fedId == FEDNumbering::MINTriggerGTPFEDID) {
656  if (evf::evtn::evm_board_sense((unsigned char*) fedHeader,fedSize))
657  GTPEventID_ = evf::evtn::get((unsigned char*) fedHeader,true);
658  else
659  GTPEventID_ = evf::evtn::get((unsigned char*) fedHeader,false);
660  //evf::evtn::evm_board_setformat(fedSize);
661  const uint64_t gpsl = evf::evtn::getgpslow((unsigned char*) fedHeader);
662  const uint64_t gpsh = evf::evtn::getgpshigh((unsigned char*) fedHeader);
663  tstamp = edm::Timestamp(static_cast<edm::TimeValue_t> ((gpsh << 32) + gpsl));
664  }
665  //take event ID from GTPE FED
666  if (fedId == FEDNumbering::MINTriggerEGTPFEDID && GTPEventID_==0) {
667  if (evf::evtn::gtpe_board_sense((unsigned char*)fedHeader)) {
668  GTPEventID_ = evf::evtn::gtpe_get((unsigned char*) fedHeader);
669  }
670  }
671  FEDRawData& fedData = rawData->FEDData(fedId);
672  fedData.resize(fedSize);
673  memcpy(fedData.data(), event + eventSize, fedSize);
674  }
675  assert(eventSize == 0);
676 
677  return tstamp;
678 }
679 
681 {
683  try {
684  // assemble json destination path
686 
687  //TODO:should be ported to use fffnaming
688  std::ostringstream fileNameWithPID;
689  fileNameWithPID << jsonSourcePath.stem().string() << "_pid"
690  << std::setfill('0') << std::setw(5) << getpid() << ".jsn";
691  jsonDestPath /= fileNameWithPID.str();
692 
693  LogDebug("FedRawDataInputSource") << "JSON rename -: " << jsonSourcePath << " to "
694  << jsonDestPath;
695 
697  boost::filesystem::copy(jsonSourcePath,jsonDestPath);
698  else {
699  try {
700  boost::filesystem::copy(jsonSourcePath,jsonDestPath);
701  }
702  catch (const boost::filesystem::filesystem_error& ex)
703  {
704  // Input dir gone?
705  edm::LogError("FedRawDataInputSource") << "grabNextFile BOOST FILESYSTEM ERROR CAUGHT -: " << ex.what();
706  // << " Maybe the file is not yet visible by FU. Trying again in one second";
707  sleep(1);
708  boost::filesystem::copy(jsonSourcePath,jsonDestPath);
709  }
711 
712 
713  try {
714  //sometimes this fails but file gets deleted
715  boost::filesystem::remove(jsonSourcePath);
716  }
717  catch (const boost::filesystem::filesystem_error& ex)
718  {
719  // Input dir gone?
720  edm::LogError("FedRawDataInputSource") << "grabNextFile BOOST FILESYSTEM ERROR CAUGHT -: " << ex.what();
721  }
722  catch (std::exception& ex)
723  {
724  // Input dir gone?
725  edm::LogError("FedRawDataInputSource") << "grabNextFile std::exception CAUGHT -: " << ex.what();
726  }
727 
728  }
729 
730  boost::filesystem::ifstream ij(jsonDestPath);
731  Json::Value deserializeRoot;
733 
734  if (!reader.parse(ij, deserializeRoot))
735  throw std::runtime_error("Cannot deserialize input JSON file");
736 
737  //read BU JSON
739  DataPoint dp;
740  dp.deserialize(deserializeRoot);
741  bool success = false;
742  for (unsigned int i=0;i<dpd_->getNames().size();i++) {
743  if (dpd_->getNames().at(i)=="NEvents")
744  if (i<dp.getData().size()) {
745  data = dp.getData()[i];
746  success=true;
747  }
748  }
749  if (!success) {
750  if (dp.getData().size())
751  data = dp.getData()[0];
752  else
753  throw cms::Exception("FedRawDataInputSource::grabNextJsonFile") <<
754  " error reading number of events from BU JSON -: No input value " << data;
755  }
756  return boost::lexical_cast<int>(data);
757 
758  }
759  catch (const boost::filesystem::filesystem_error& ex)
760  {
761  // Input dir gone?
763  edm::LogError("FedRawDataInputSource") << "grabNextFile - BOOST FILESYSTEM ERROR CAUGHT -: " << ex.what()
764  << " - Maybe the BU run dir disappeared? Ending process with code 0...";
765  _exit(-1);
766  }
767  catch (std::runtime_error e)
768  {
769  // Another process grabbed the file and NFS did not register this
771  edm::LogError("FedRawDataInputSource") << "grabNextFile - runtime Exception -: " << e.what();
772  }
773 
774  catch( boost::bad_lexical_cast const& ) {
775  edm::LogError("FedRawDataInputSource") << "grabNextFile - error parsing number of events from BU JSON. "
776  << "Input value is -: " << data;
777  }
778 
779  catch (std::exception e)
780  {
781  // BU run directory disappeared?
783  edm::LogError("FedRawDataInputSource") << "grabNextFile - SOME OTHER EXCEPTION OCCURED!!!! -: " << e.what();
784  }
785 
786  return -1;
787 }
788 
790 {
793 
794  edm::LogInfo("FedRawDataInputSource") << "Instead of delete, RENAME -: " << fileName
795  << " to: " << destination.string();
796  boost::filesystem::rename(source,destination);
797  boost::filesystem::rename(source.replace_extension(".jsn"),destination.replace_extension(".jsn"));
798 }
799 
801 {}
802 
803 void FedRawDataInputSource::postForkReacquireResources(boost::shared_ptr<edm::multicore::MessageReceiverForSource>)
804 {
805  InputSource::rewind();
809 }
810 
812 {}
813 
814 
816 {
817  bool stop=false;
818  unsigned int currentLumiSection = 0;
819  //threadInit_.exchange(true,std::memory_order_acquire);
820 
821  {
822  std::unique_lock<std::mutex> lk(startupLock_);
823  startupCv_.notify_one();
824  }
825 
826  while (!stop) {
827 
828  //wait for at least one free thread and chunk
829  int counter=0;
830  while ((workerPool_.empty() && !singleBufferMode_) || freeChunks_.empty())
831  {
832  std::unique_lock<std::mutex> lkw(mWakeup_);
833  //sleep until woken up by condition or a timeout
834  if (cvWakeup_.wait_for(lkw, std::chrono::milliseconds(100)) == std::cv_status::timeout) {
835  counter++;
836  //if (!(counter%50)) edm::LogInfo("FedRawDataInputSource") << "No free chunks or threads...";
837  LogDebug("FedRawDataInputSource") << "No free chunks or threads...";
838  }
839  else {
840  assert(!(workerPool_.empty() && !singleBufferMode_) || freeChunks_.empty());
841  }
842  if (quit_threads_.load(std::memory_order_relaxed) || edm::shutdown_flag.load(std::memory_order_relaxed)) {stop=true;break;}
843  }
844 
845  if (stop) break;
846 
847  //look for a new file
848  std::string nextFile;
849  uint32_t ls;
850  uint32_t fileSize;
851 
853 
855 
856  while (status == evf::EvFDaqDirector::noFile) {
857  if (quit_threads_.load(std::memory_order_relaxed) || edm::shutdown_flag.load(std::memory_order_relaxed)) {
858  stop=true;
859  break;
860  }
861  else
862  status = daqDirector_->updateFuLock(ls,nextFile,fileSize);
863 
864  if ( status == evf::EvFDaqDirector::runEnded) {
866  stop=true;
867  break;
868  }
869 
870  //queue new lumisection
871  if( getLSFromFilename_ && ls > currentLumiSection) {
872  currentLumiSection = ls;
873  fileQueue_.push(new InputFile(evf::EvFDaqDirector::newLumi, currentLumiSection));
874  }
875 
876  if( getLSFromFilename_ && currentLumiSection>0 && ls < currentLumiSection) {
877  edm::LogError("FedRawDataInputSource") << "Got old LS ("<<ls<<") file from EvFDAQDirector! Expected LS:" << currentLumiSection<<". Aborting execution."<<std::endl;
878  _exit(-1);
879  }
880 
881  int dbgcount=0;
882  if (status == evf::EvFDaqDirector::noFile) {
883  dbgcount++;
884  if (!(dbgcount%20)) LogDebug("FedRawDataInputSource") << "No file for me... sleep and try again...";
885  usleep(100000);
886  }
887  }
888  if ( status == evf::EvFDaqDirector::newFile ) {
889  LogDebug("FedRawDataInputSource") << "The director says to grab -: " << nextFile;
890 
891 
892  boost::filesystem::path rawFilePath(nextFile);
893  std::string rawFile = rawFilePath.replace_extension(".raw").string();
894 
895  struct stat st;
896  stat(rawFile.c_str(),&st);
897  fileSize=st.st_size;
898 
899  int eventsInNewFile = grabNextJsonFile(nextFile);
900  if (fms_) fms_->stoppedLookingForFile(ls);
901  assert( eventsInNewFile>=0 );
902  assert((eventsInNewFile>0) == (fileSize>0));//file without events must be empty
903 
904  if (!singleBufferMode_) {
905  //calculate number of needed chunks
906  unsigned int neededChunks = fileSize/eventChunkSize_;
907  if (fileSize%eventChunkSize_) neededChunks++;
908 
909  InputFile * newInputFile = new InputFile(evf::EvFDaqDirector::FileStatus::newFile,ls,rawFile,fileSize,neededChunks,eventsInNewFile,this);
910  fileQueue_.push(newInputFile);
911 
912  for (unsigned int i=0;i<neededChunks;i++) {
913 
914  //get thread
915  unsigned int newTid = 0xffffffff;
916  while (!workerPool_.try_pop(newTid)) {
917  usleep(100000);
918  }
919 
920  InputChunk * newChunk = nullptr;
921  while (!freeChunks_.try_pop(newChunk)) {
922  usleep(100000);
923  if (quit_threads_.load(std::memory_order_relaxed)) break;
924  }
925 
926  if (newChunk == nullptr) {
927  //return unused tid if we received shutdown (nullptr chunk)
928  if (newTid!=0xffffffff) workerPool_.push(newTid);
929  stop = true;
930  break;
931  }
932 
933  std::unique_lock<std::mutex> lk(mReader_);
934 
935  unsigned int toRead = eventChunkSize_;
936  if (i==neededChunks-1 && fileSize%eventChunkSize_) toRead = fileSize%eventChunkSize_;
937  newChunk->reset(i*eventChunkSize_,toRead,i);
938 
939  workerJob_[newTid].first=newInputFile;
940  workerJob_[newTid].second=newChunk;
941 
942  //wake up the worker thread
943  cvReader_[newTid]->notify_one();
944  }
945  }
946  else {
947  if (!eventsInNewFile) {
948  //still queue file for lumi update
949  std::unique_lock<std::mutex> lkw(mWakeup_);
950  InputFile * newInputFile = new InputFile(evf::EvFDaqDirector::FileStatus::newFile,ls,rawFile,0,0,0,this);
951  fileQueue_.push(newInputFile);
952  cvWakeup_.notify_one();
953  return;
954  }
955  //in single-buffer mode put single chunk in the file and let the main thread read the file
956  InputChunk * newChunk;
957  //should be available immediately
958  while(!freeChunks_.try_pop(newChunk)) usleep(100000);
959 
960  std::unique_lock<std::mutex> lkw(mWakeup_);
961 
962  unsigned int toRead = eventChunkSize_;
963  if (fileSize%eventChunkSize_) toRead = fileSize%eventChunkSize_;
964  newChunk->reset(0,toRead,0);
965  newChunk->readComplete_=true;
966 
967  //push file and wakeup main thread
968  InputFile * newInputFile = new InputFile(evf::EvFDaqDirector::FileStatus::newFile,ls,rawFile,fileSize,1,eventsInNewFile,this);
969  newInputFile->chunks_[0]=newChunk;
970  fileQueue_.push(newInputFile);
971  cvWakeup_.notify_one();
972  }
973  }
974  }
975  //make sure threads finish reading
976  unsigned numFinishedThreads = 0;
977  while (numFinishedThreads < workerThreads_.size()) {
978  unsigned int tid;
979  while (!workerPool_.try_pop(tid)) {usleep(10000);}
980  std::unique_lock<std::mutex> lk(mReader_);
981  thread_quit_signal[tid]=true;
982  cvReader_[tid]->notify_one();
983  numFinishedThreads++;
984  }
985  for (unsigned int i=0;i<workerThreads_.size();i++) {
986  workerThreads_[i]->join();
987  delete workerThreads_[i];
988  }
989 }
990 
991 void FedRawDataInputSource::readWorker(unsigned int tid)
992 {
993  bool init = true;
994  threadInit_.exchange(true,std::memory_order_acquire);
995 
996  while (1) {
997 
998  std::unique_lock<std::mutex> lk(mReader_);
999  workerJob_[tid].first=nullptr;
1000  workerJob_[tid].first=nullptr;
1001 
1002  assert(!thread_quit_signal[tid]);//should never get it here
1003  workerPool_.push(tid);
1004 
1005  if (init) {
1006  std::unique_lock<std::mutex> lk(startupLock_);
1007  init = false;
1008  startupCv_.notify_one();
1009  }
1010  cvReader_[tid]->wait(lk);
1011 
1012  if (thread_quit_signal[tid]) return;
1013 
1014  InputFile * file;
1015  InputChunk * chunk;
1016 
1017  assert(workerJob_[tid].first!=nullptr && workerJob_[tid].second!=nullptr);
1018 
1019  file = workerJob_[tid].first;
1020  chunk = workerJob_[tid].second;
1021 
1022  int fileDescriptor = open(file->fileName_.c_str(), O_RDONLY);
1023  off_t pos = lseek(fileDescriptor,chunk->offset_,SEEK_SET);
1024 
1025 
1026  if (fileDescriptor>=0)
1027  LogDebug("FedRawDataInputSource") << "Reader thread opened file -: TID: " << tid << " file: " << file->fileName_ << " at offset " << pos;
1028  else
1029  {
1030  edm::LogError("FedRawDataInputSource") <<
1031  "readWorker failed to open file -: " << file->fileName_ << " fd:" << fileDescriptor <<
1032  " or seek to offset " << chunk->offset_ << ", lseek returned:" << pos;
1033  setExceptionState_=true;
1034  return;
1035 
1036  }
1037 
1038  unsigned int bufferLeft = 0;
1040  for (unsigned int i=0;i<readBlocks_;i++)
1041  {
1042  const ssize_t last = ::read(fileDescriptor,( void*) (chunk->buf_+bufferLeft), eventChunkBlock_);
1043  if ( last > 0 )
1044  bufferLeft+=last;
1045  if (last < eventChunkBlock_) {
1046  assert(chunk->usedSize_==i*eventChunkBlock_+last);
1047  break;
1048  }
1049  }
1051  auto diff = end-start;
1052  std::chrono::milliseconds msec = std::chrono::duration_cast<std::chrono::milliseconds>(diff);
1053  LogDebug("FedRawDataInputSource") << " finished reading block -: " << (bufferLeft >> 20) << " MB" << " in " << msec.count() << " ms ("<< (bufferLeft >> 20)/double(msec.count())<<" GB/s)";
1054  close(fileDescriptor);
1055 
1056  if (detectedFRDversion_==0 && chunk->offset_==0) detectedFRDversion_=*((uint32*)chunk->buf_);
1057  assert(detectedFRDversion_<=3);
1058  chunk->readComplete_=true;//this is atomic to secure the sequential buffer fill before becoming available for processing)
1059  file->chunks_[chunk->fileIndex_]=chunk;//put the completed chunk in the file chunk vector at predetermined index
1060 
1061  }
1062 }
1063 
1065 {
1066  quit_threads_=true;
1067  throw cms::Exception("FedRawDataInputSource:threadError") << " file reader thread error ";
1068 
1069 }
1070 
1071 
1072 inline bool InputFile::advance(unsigned char* & dataPosition, const size_t size)
1073 {
1074  //wait for chunk
1075  while (!waitForChunk(currentChunk_)) {
1076  usleep(100000);
1078  }
1079 
1080  dataPosition = chunks_[currentChunk_]->buf_+ chunkPosition_;
1081  size_t currentLeft = chunks_[currentChunk_]->size_ - chunkPosition_;
1082 
1083  if (currentLeft < size) {
1084 
1085  //we need next chunk
1086  while (!waitForChunk(currentChunk_+1)) {
1087  usleep(100000);
1089  }
1090  //copy everything to beginning of the first chunk
1091  dataPosition-=chunkPosition_;
1092  assert(dataPosition==chunks_[currentChunk_]->buf_);
1093  memmove(chunks_[currentChunk_]->buf_, chunks_[currentChunk_]->buf_+chunkPosition_, currentLeft);
1094  memcpy(chunks_[currentChunk_]->buf_ + currentLeft, chunks_[currentChunk_+1]->buf_, size - currentLeft);
1095  //set pointers at the end of the old data position
1097  chunkPosition_=size-currentLeft;
1098  currentChunk_++;
1099  return true;
1100  }
1101  else {
1104  return false;
1105  }
1106 }
1107 
1108 inline void InputFile::moveToPreviousChunk(const size_t size, const size_t offset)
1109 {
1110  //this will fail in case of events that are too large
1111  assert(size < chunks_[currentChunk_]->size_ - chunkPosition_);
1112  assert(size - offset < chunks_[currentChunk_]->size_);
1113  memcpy(chunks_[currentChunk_-1]->buf_+offset,chunks_[currentChunk_]->buf_+chunkPosition_,size);
1116 }
1117 
1118 inline void InputFile::rewindChunk(const size_t size) {
1121 }
1122 
1123 //single-buffer mode file reading
1125 {
1126 
1127  if (fileDescriptor_<0) {
1128  fileDescriptor_ = open(file->fileName_.c_str(), O_RDONLY);
1129  bufferInputRead_ = 0;
1130  //off_t pos = lseek(fileDescriptor,0,SEEK_SET);
1131  if (fileDescriptor_>=0)
1132  LogDebug("FedRawDataInputSource") << "opened file -: " << std::endl << file->fileName_;
1133  else
1134  {
1135  throw cms::Exception("FedRawDataInputSource:readNextChunkIntoBuffer") << "failed to open file " << std::endl
1136  << file->fileName_ << " fd:" << fileDescriptor_;
1137  }
1138  }
1139 
1140  if (file->chunkPosition_ == 0) { //in the rare case the last byte barely fit
1141  uint32_t existingSize = 0;
1142  for (unsigned int i=0;i<readBlocks_;i++)
1143  {
1144  const ssize_t last = ::read(fileDescriptor_,( void*) (file->chunks_[0]->buf_ + existingSize), eventChunkBlock_);
1146  existingSize+=last;
1147  }
1148  }
1149  else {
1150  const uint32_t chunksize = file->chunkPosition_;
1151  const uint32_t blockcount=chunksize/eventChunkBlock_;
1152  const uint32_t leftsize = chunksize%eventChunkBlock_;
1153  uint32_t existingSize = eventChunkSize_ - file->chunkPosition_;
1154  memmove((void*) file->chunks_[0]->buf_, file->chunks_[0]->buf_ + file->chunkPosition_, existingSize);
1155 
1156  for (uint32_t i=0;i<blockcount;i++) {
1157  const ssize_t last = ::read(fileDescriptor_,( void*) (file->chunks_[0]->buf_ + existingSize), eventChunkBlock_);
1159  existingSize+=last;
1160  }
1161  if (leftsize) {
1162  const ssize_t last = ::read(fileDescriptor_,( void*)( file->chunks_[0]->buf_ + existingSize ), leftsize);
1164  existingSize+=last;
1165  }
1166  file->chunkPosition_=0;//data was moved to beginning of the chunk
1167  }
1168  if (bufferInputRead_ == file->fileSize_) { // no more data in this file
1169  if (fileDescriptor_!=-1)
1170  {
1171  LogDebug("FedRawDataInputSource") << "Closing input file -: " << std::endl << file->fileName_;
1172  close(fileDescriptor_);
1173  fileDescriptor_=-1;
1174  }
1175  }
1176 }
1177 
1178 // define this class as an input source
1180 
#define LogDebug(id)
static const char runNumber_[]
std::vector< std::string > & getData()
Definition: DataPoint.h:58
unsigned int lumi_
int i
Definition: DBlmapReader.cc:9
unsigned int getgpshigh(const unsigned char *)
uint32_t chunkPosition_
std::condition_variable cvWakeup_
tuple start
Check for commandline option errors.
Definition: dqm_diff.py:58
virtual void read(edm::EventPrincipal &eventPrincipal) override
bool gtpe_board_sense(const unsigned char *p)
struct fedh_struct fedh_t
static Timestamp invalidTimestamp()
Definition: Timestamp.h:101
virtual void rewind_() override
std::vector< int > * getStreamFileTracker()
unsigned int offset_
jsoncollector::DataPointDefinition * dpd_
tbb::concurrent_queue< unsigned int > workerPool_
JetCorrectorParameters::Record record
Definition: classes.h:7
unsigned int get(const unsigned char *, bool)
void maybeOpenNewLumiSection(const uint32_t lumiSection)
void rewindChunk(const size_t size)
string destination
std::vector< int > * streamFileTrackerPtr_
#define nullptr
int init
Definition: HydjetWrapper.h:62
evf::EvFDaqDirector::FileStatus status_
boost::shared_ptr< LuminosityBlockAuxiliary > luminosityBlockAuxiliary() const
Called by the framework to merge or insert lumi in principal cache.
Definition: InputSource.h:262
RunNumber_t run() const
Accessor for current run number.
Definition: InputSource.cc:595
std::atomic< bool > quit_threads_
volatile std::atomic< bool > shutdown_flag
std::vector< ReaderInfo > workerJob_
bool parse(const std::string &document, Value &root, bool collectComments=true)
Read a Value from a JSON document.
std::unique_ptr< std::thread > readSupervisorThread_
ProductProvenance const & dummyProvenance() const
Represents a JSON value.
Definition: value.h:111
std::string getEoLSFilePathOnBU(const unsigned int ls) const
edm::EventAuxiliary makeEventAuxiliary(TCDSRecord *record, unsigned int runNumber, unsigned int lumiSection, std::string const &processGUID)
std::vector< std::condition_variable * > cvReader_
FedRawDataInputSource * parent_
unsigned int sourceid
Definition: fed_header.h:32
std::string const & processGUID() const
Accessor for global process identifier.
Definition: InputSource.h:214
void reportEventsThisLumiInSource(unsigned int lumi, unsigned int events)
FileStatus updateFuLock(unsigned int &ls, std::string &nextFile, uint32_t &fsize)
FedRawDataInputSource(edm::ParameterSet const &, edm::InputSourceDescription const &)
U second(std::pair< T, U > const &p)
void reset(unsigned int newOffset, unsigned int toRead, unsigned int fileIndex)
static Timestamp beginOfTime()
Definition: Timestamp.h:103
std::vector< bool > thread_quit_signal
uint32_t bufferPosition_
tuple path
else: Piece not in the list, fine.
void updateFileIndex(int const &fileIndex)
#define DEFINE_FWK_INPUT_SOURCE(type)
void resize(size_t newsize)
Definition: FEDRawData.cc:32
const edm::RunNumber_t runNumber_
bool advance(unsigned char *&dataPosition, const size_t size)
void setLuminosityBlockAuxiliary(LuminosityBlockAuxiliary *lbp)
Definition: InputSource.h:354
void moveToPreviousChunk(const size_t size, const size_t offset)
unsigned char * buf_
void setDeleteTracking(std::mutex *fileDeleteLock, std::list< std::pair< int, InputFile * >> *filesToDelete)
struct fedt_struct fedt_t
#define FED_EVSZ_EXTRACT(a)
Definition: fed_trailer.h:36
int grabNextJsonFile(boost::filesystem::path const &)
def load
Definition: svgfig.py:546
BranchDescription const & branchDescription() const
edm::ProcessHistoryID processHistoryID_
#define end
Definition: vmac.h:37
virtual void preForkReleaseResources() override
bool waitForChunk(unsigned int chunkid)
const edm::DaqProvenanceHelper daqProvenanceHelper_
unsigned int fileIndex_
unsigned int offset(bool)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
bool first
Definition: L1TdeRCT.cc:75
virtual void deserialize(Json::Value &root)
Definition: DataPoint.cc:56
ProcessHistoryID daqInit(ProductRegistry &productRegistry, ProcessHistoryRegistry &processHistoryRegistry) const
std::vector< std::thread * > workerThreads_
bool evm_board_sense(const unsigned char *p, size_t size)
unsigned int uint32
Definition: MsgTools.h:13
void setEventCached()
Called by the framework to merge or ached() const {return eventCached_;}.
Definition: InputSource.h:381
const std::string fuOutputDir_
edm::Timestamp fillFEDRawDataCollection(std::auto_ptr< FEDRawDataCollection > &)
std::atomic< bool > readComplete_
virtual bool checkNextEvent() override
LuminosityBlockNumber_t luminosityBlock() const
Accessor for current luminosity block number.
Definition: InputSource.cc:601
std::list< std::pair< int, InputFile * > > filesToDelete_
unsigned int nProcessed_
unsigned long long uint64_t
Definition: Time.h:15
unsigned int currentChunk_
auto dp
Definition: deltaR.h:24
tbb::concurrent_queue< InputFile * > fileQueue_
ProductRegistry & productRegistryUpdate() const
Definition: InputSource.h:347
std::unique_ptr< FRDEventMsgView > event_
virtual void postForkReacquireResources(boost::shared_ptr< edm::multicore::MessageReceiverForSource >) override
std::string fileName_
void setProcessHistoryID(ProcessHistoryID const &phid)
std::condition_variable startupCv_
void stoppedLookingForFile(unsigned int lumi)
tbb::concurrent_vector< InputChunk * > chunks_
void resetLuminosityBlockAuxiliary(bool isNewLumi=true) const
Definition: InputSource.h:362
boost::shared_ptr< RunAuxiliary > runAuxiliary() const
Called by the framework to merge or insert run in principal cache.
Definition: InputSource.h:259
ProcessHistoryRegistry & processHistoryRegistryForUpdate()
Non-const accessor for process history registry.
Definition: InputSource.h:174
unsigned int eventsize
Definition: fed_trailer.h:33
std::atomic< bool > threadInit_
std::pair< InputFile *, InputChunk * > ReaderInfo
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:82
evf::EvFDaqDirector * daqDirector_
void setRunAuxiliary(RunAuxiliary *rp)
Definition: InputSource.h:350
void readWorker(unsigned int tid)
static std::atomic< unsigned int > counter
void makeEvent(EventPrincipal &eventPrincipal, EventAuxiliary const &eventAuxiliary)
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28
Unserialize a JSON document into a Value.
Definition: reader.h:16
void deleteFile(std::string const &)
evf::FastMonitoringService * fms_
friend class InputFile
Open Root file and provide MEs ############.
size_(0)
Definition: OwnArray.h:181
unsigned int gtpe_get(const unsigned char *)
std::vector< std::string > const & getNames()
std::string getEoLSFilePathOnFU(const unsigned int ls) const
std::string getJumpFilePath() const
volatile std::atomic< bool > shutdown_flag false
tbb::concurrent_queue< InputChunk * > freeChunks_
evf::EvFDaqDirector::FileStatus getNextEvent()
tuple status
Definition: ntuplemaker.py:245
evf::EvFDaqDirector::FileStatus nextEvent()
void readNextChunkIntoBuffer(InputFile *file)
unsigned int nEvents_
void setFMS(evf::FastMonitoringService *fms)
static std::string const source
Definition: EdmProvDump.cc:43
unsigned int getgpslow(const unsigned char *)
tuple size
Write out results.
#define FED_SOID_EXTRACT(a)
Definition: fed_header.h:53
std::string getEoRFilePathOnFU() const
void put(BranchDescription const &bd, WrapperOwningHolder const &edp, ProductProvenance const &productProvenance)
void renameToNextFree(std::string const &fileName) const