35 #include "CoralBase/Exception.h" 36 #include "CoralBase/AttributeList.h" 37 #include "CoralBase/Attribute.h" 38 #include "CoralBase/AttributeSpecification.h" 39 #include "CoralBase/Exception.h" 40 #include "CoralBase/Blob.h" 41 #include "RelationalAccess/ISessionProxy.h" 42 #include "RelationalAccess/ITransaction.h" 43 #include "RelationalAccess/AccessMode.h" 44 #include "RelationalAccess/ITypeConverter.h" 45 #include "RelationalAccess/IQuery.h" 46 #include "RelationalAccess/ICursor.h" 47 #include "RelationalAccess/ISchema.h" 48 #include "RelationalAccess/ITable.h" 64 #include <boost/foreach.hpp> 65 #include <boost/tokenizer.hpp> 66 #include <xercesc/dom/DOM.hpp> 67 #include <xercesc/parsers/XercesDOMParser.hpp> 69 #include <xercesc/util/XMLString.hpp> 71 #include "boost/filesystem/path.hpp" 72 #include "boost/filesystem/operations.hpp" 82 edm::BeginLuminosityBlockProducer,
83 edm::EndRunProducer> {
141 void fillLSCache(
unsigned int luminum);
142 void writeProductsForEntry(
edm::
LuminosityBlock & iLBlock,
unsigned int runnumber,
unsigned int luminum);
143 const
std::
string servletTranslation(const
std::
string& servlet) const;
144 std::
string x2s(const XMLCh*
input)const;
145 XMLCh* s2x(const
std::
string&
input)const;
146 std::
string toParentString(const
xercesc::DOMNode &nodeToConvert)const;
147 unsigned long long getLumiDataId(const
coral::ISchema& schema,
unsigned int runnumber);
148 unsigned long long getTrgDataId(const
coral::ISchema& schema,
unsigned int runnumber);
149 unsigned long long getHltDataId(const
coral::ISchema& schema,
unsigned int runnumber);
150 std::
string getCurrentDataTag(const
coral::ISchema& schema);
152 std::
string m_lumiversion;
153 std::
string m_siteconfpath;
154 unsigned int m_cachedrun;
155 unsigned long long m_cachedlumidataid;
156 unsigned long long m_cachedtrgdataid;
157 unsigned long long m_cachedhltdataid;
161 unsigned int m_cachesize;
176 XMLCh* buff = xercesc::XMLString::transcode(temp.c_str());
182 std::ostringstream oss;
183 xercesc::DOMNodeList *childList = nodeToConvert.getChildNodes();
185 unsigned int numNodes = childList->getLength ();
186 for (
unsigned int i = 0;
i < numNodes; ++
i){
187 xercesc::DOMNode *childNode = childList->item(
i);
188 if (childNode->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)
190 xercesc::DOMElement *
child = static_cast < xercesc::DOMElement *> (childNode);
191 xercesc::DOMNamedNodeMap *attributes = child->getAttributes();
192 unsigned int numAttributes = attributes->getLength ();
193 for (
unsigned int j = 0; j < numAttributes; ++j){
194 xercesc::DOMNode *attributeNode = attributes->item(j);
195 if (attributeNode->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
197 xercesc::DOMAttr *attribute = static_cast <xercesc::DOMAttr *> (attributeNode);
199 oss <<
"(" << x2s(child->getTagName()) <<
200 x2s(attribute->getName()) <<
"=" <<
201 x2s(attribute->getValue()) <<
")";
212 std::unique_ptr< xercesc::XercesDOMParser >
parser(
new xercesc::XercesDOMParser);
214 parser->setValidationScheme(xercesc::XercesDOMParser::Val_Auto);
215 parser->setDoNamespaces(
false);
216 parser->parse(m_siteconfpath.c_str());
217 xercesc::DOMDocument*
doc=parser->getDocument();
222 xercesc::DOMNodeList *frontierConnectList=doc->getElementsByTagName(s2x(
"frontier-connect"));
223 if (frontierConnectList->getLength()>0){
224 xercesc::DOMElement *frontierConnectElement=static_cast < xercesc::DOMElement *> (frontierConnectList->item (0));
225 frontierConnect = toParentString(*frontierConnectElement);
232 while ((serverurl=frontierConnect.find(
"(serverurl=", nextparen)) != std::string::npos){
233 realconnect.append(frontierConnect, nextparen, serverurl - nextparen);
234 nextparen=frontierConnect.find(
')', serverurl);
235 lastslash=frontierConnect.rfind(
'/', nextparen);
236 realconnect.append(frontierConnect,serverurl,lastslash-serverurl+1);
237 realconnect.append(servlet);
239 realconnect.append(frontierConnect, nextparen,frontierConnect.length()-nextparen);
240 }
catch(xercesc::DOMException &
e){
246 LumiProducer::LumiProducer(
const edm::ParameterSet& iConfig):m_cachedrun(0),m_isNullRun(
false),m_cachesize(0)
249 produces<LumiSummaryRunHeader, edm::Transition::EndRun>();
250 produces<LumiSummary, edm::Transition::BeginLuminosityBlock>();
251 produces<LumiDetails, edm::Transition::BeginLuminosityBlock>();
258 if(connectStr.substr(0,fproto.length())==fproto){
261 if(endservlet==std::string::npos){
262 endservlet=connectStr.rfind(
'/',connectStr.length());
264 std::string servlet=connectStr.substr(startservlet,endservlet-startservlet);
265 if( (!servlet.empty())&& (servlet.find_first_of(
":/)[]")==std::string::npos)){
266 if(servlet==
"cms_conditions_data") servlet=
"";
269 if(siteconfpath.length()==0){
271 char *
tmp = getenv (
"CMS_PATH");
282 m_connectStr=fproto+servletTranslation(servlet)+connectStr.substr(endservlet);
284 m_connectStr=connectStr;
287 m_connectStr=connectStr;
308 coral::AttributeList bindVariables;
309 bindVariables.extend(
"runnum",
typeid(
unsigned int));
310 bindVariables[
"runnum"].data<
unsigned int>()=runnumber;
311 coral::AttributeList lumiidOutput;
312 lumiidOutput.extend(
"lumidataid",
typeid(
unsigned long long));
313 coral::IQuery* lumiQuery=schema.newQuery();
315 lumiQuery->addToOutputList(
"MAX(DATA_ID)",
"lumidataid");
316 lumiQuery->setCondition(
"RUNNUM=:runnum",bindVariables);
317 lumiQuery->defineOutput(lumiidOutput);
318 coral::ICursor& lumicursor=lumiQuery->execute();
319 while( lumicursor.next() ){
320 const coral::AttributeList& row=lumicursor.currentRow();
321 if(!row[
"lumidataid"].isNull()){
322 lumidataid=row[
"lumidataid"].data<
unsigned long long>();
334 coral::AttributeList bindVariables;
335 bindVariables.extend(
"runnum",
typeid(
unsigned int));
336 bindVariables[
"runnum"].data<
unsigned int>()=runnumber;
337 coral::AttributeList trgidOutput;
338 trgidOutput.extend(
"trgdataid",
typeid(
unsigned long long));
339 coral::IQuery* trgQuery=schema.newQuery();
341 trgQuery->addToOutputList(
"MAX(DATA_ID)",
"trgdataid");
342 trgQuery->setCondition(
"RUNNUM=:runnum",bindVariables);
343 trgQuery->defineOutput(trgidOutput);
344 coral::ICursor& trgcursor=trgQuery->execute();
345 while( trgcursor.next() ){
346 const coral::AttributeList& row=trgcursor.currentRow();
347 if(!row[
"trgdataid"].isNull()){
348 trgdataid=row[
"trgdataid"].data<
unsigned long long>();
360 coral::AttributeList bindVariables;
361 bindVariables.extend(
"runnum",
typeid(
unsigned int));
362 bindVariables[
"runnum"].data<
unsigned int>()=runnumber;
363 coral::AttributeList hltidOutput;
364 hltidOutput.extend(
"hltdataid",
typeid(
unsigned long long));
365 coral::IQuery* hltQuery=schema.newQuery();
367 hltQuery->addToOutputList(
"MAX(DATA_ID)",
"hltdataid");
368 hltQuery->setCondition(
"RUNNUM=:runnum",bindVariables);
369 hltQuery->defineOutput(hltidOutput);
370 coral::ICursor& hltcursor=hltQuery->execute();
371 while( hltcursor.next() ){
372 const coral::AttributeList& row=hltcursor.currentRow();
373 if(!row[
"hltdataid"].isNull()){
374 hltdataid=row[
"hltdataid"].data<
unsigned long long>();
385 std::map<unsigned long long,std::string>
alltags;
386 coral::IQuery* tagQuery=schema.newQuery();
388 tagQuery->addToOutputList(
"TAGID");
389 tagQuery->addToOutputList(
"TAGNAME");
390 coral::AttributeList tagoutput;
391 tagoutput.extend(
"TAGID",
typeid(
unsigned long long));
393 tagQuery->defineOutput(tagoutput);
394 coral::ICursor& tagcursor=tagQuery->execute();
395 while( tagcursor.next() ){
396 const coral::AttributeList& row=tagcursor.currentRow();
397 unsigned long long tagid=row[
"TAGID"].data<
unsigned long long>();
399 alltags.insert(std::make_pair(tagid,tagname));
402 unsigned long long maxid=0;
403 for(std::map<unsigned long long,std::string>::iterator it = alltags.begin(); it !=alltags.end(); ++it) {
404 if( it->first > maxid){
408 result=alltags[maxid];
416 if(m_cachedrun!=runnumber){
421 throw cms::Exception(
"Non existing service lumi::service::DBService");
425 session->transaction().start(
true);
427 if(m_cachedlumidataid!=0){
434 session->transaction().commit();
436 session->transaction().rollback();
450 iLBlock.
put(std::make_unique<LumiSummary>());
451 iLBlock.
put(std::make_unique<LumiDetails>());
454 if(m_lscache.find(luminum)==m_lscache.end()){
456 fillLSCache(luminum);
459 writeProductsForEntry(iLBlock,runnumber,luminum);
467 auto lsrh = std::make_unique<LumiSummaryRunHeader>();
468 lsrh->swapL1Names(m_runcache.TRGBitNames);
469 lsrh->swapHLTNames(m_runcache.HLTPathNames);
471 m_runcache.TRGBitNameToIndex.clear();
472 m_runcache.HLTPathNameToIndex.clear();
476 if(m_lumiversion.empty()){
477 m_lumiversion=getCurrentDataTag(schema);
479 std::cout<<
"lumi tag version 2 "<<m_lumiversion<<std::endl;
480 if(m_cachedtrgdataid!=0){
481 coral::AttributeList trgBindVariables;
482 trgBindVariables.extend(
"trgdataid",
typeid(
unsigned long long));
483 trgBindVariables[
"trgdataid"].data<
unsigned long long>()=m_cachedtrgdataid;
485 coral::AttributeList trgOutput;
486 trgOutput.extend(
"bitzeroname",
typeid(
std::string));
487 trgOutput.extend(
"bitnameclob",
typeid(
std::string));
488 coral::IQuery* trgQuery=schema.newQuery();
490 trgQuery->addToOutputList(
"BITZERONAME");
491 trgQuery->addToOutputList(
"BITNAMECLOB");
492 trgQuery->setCondition(
"DATA_ID=:trgdataid",trgBindVariables);
493 trgQuery->defineOutput(trgOutput);
494 coral::ICursor& trgcursor=trgQuery->execute();
495 while( trgcursor.next() ){
496 const coral::AttributeList& row=trgcursor.currentRow();
497 m_runcache.bitzeroname=row[
"bitzeroname"].data<
std::string>();
500 boost::char_separator<char> sep(
",");
501 boost::tokenizer<boost::char_separator<char> > tokens(bitnames,sep);
502 for(boost::tokenizer<boost::char_separator<char> >::iterator tok_it=tokens.begin();tok_it!=tokens.end();++tok_it){
503 m_runcache.TRGBitNames.push_back(*tok_it);
505 for(
unsigned int i=0;
i<m_runcache.TRGBitNames.size();++
i){
506 m_runcache.TRGBitNameToIndex.insert(std::make_pair(m_runcache.TRGBitNames.at(
i),
i) );
511 if(m_cachedhltdataid!=0){
515 coral::AttributeList hltBindVariables;
516 hltBindVariables.extend(
"hltdataid",
typeid(
unsigned long long));
517 hltBindVariables[
"hltdataid"].data<
unsigned long long>()=m_cachedhltdataid;
518 coral::AttributeList hltOutput;
519 hltOutput.extend(
"PATHNAMECLOB",
typeid(
std::string));
520 coral::IQuery* hltQuery=schema.newQuery();
522 hltQuery->addToOutputList(
"PATHNAMECLOB");
523 hltQuery->setCondition(
"DATA_ID=:hltdataid",hltBindVariables);
524 hltQuery->defineOutput(hltOutput);
525 coral::ICursor& hltcursor=hltQuery->execute();
526 while( hltcursor.next() ){
527 const coral::AttributeList& row=hltcursor.currentRow();
529 boost::char_separator<char> sep(
",");
530 boost::tokenizer<boost::char_separator<char> > tokens(pathnames,sep);
531 for(boost::tokenizer<boost::char_separator<char> >::iterator tok_it=tokens.begin();tok_it!=tokens.end();++tok_it){
532 m_runcache.HLTPathNames.push_back(*tok_it);
534 for(
unsigned int i=0;
i<m_runcache.HLTPathNames.size();++
i){
535 m_runcache.HLTPathNameToIndex.insert(std::make_pair(m_runcache.HLTPathNames.at(
i),
i));
544 if(m_isNullRun)
return;
546 for(
unsigned int n=luminum;
n<luminum+m_cachesize;++
n){
555 m_lscache.insert(std::make_pair(
n,l));
563 throw cms::Exception(
"Non existing service lumi::service::DBService");
567 session->transaction().start(
true);
569 coral::AttributeList lumisummaryBindVariables;
570 lumisummaryBindVariables.extend(
"lsmin",
typeid(
unsigned int));
571 lumisummaryBindVariables.extend(
"lsmax",
typeid(
unsigned int));
572 lumisummaryBindVariables.extend(
"lumidataid",
typeid(
unsigned long long));
573 lumisummaryBindVariables[
"lumidataid"].data<
unsigned long long>()=m_cachedlumidataid;
574 lumisummaryBindVariables[
"lsmin"].data<
unsigned int>()=luminum;
575 lumisummaryBindVariables[
"lsmax"].data<
unsigned int>()=luminum+m_cachesize;
576 coral::AttributeList lumisummaryOutput;
577 lumisummaryOutput.extend(
"CMSLSNUM",
typeid(
unsigned int));
578 lumisummaryOutput.extend(
"INSTLUMI",
typeid(
float));
579 lumisummaryOutput.extend(
"STARTORBIT",
typeid(
unsigned int));
580 lumisummaryOutput.extend(
"NUMORBIT",
typeid(
unsigned int));
581 lumisummaryOutput.extend(
"CMSBXINDEXBLOB",
typeid(coral::Blob));
582 lumisummaryOutput.extend(
"BEAMINTENSITYBLOB_1",
typeid(coral::Blob));
583 lumisummaryOutput.extend(
"BEAMINTENSITYBLOB_2",
typeid(coral::Blob));
584 lumisummaryOutput.extend(
"BXLUMIVALUE_OCC1",
typeid(coral::Blob));
585 lumisummaryOutput.extend(
"BXLUMIVALUE_OCC2",
typeid(coral::Blob));
586 lumisummaryOutput.extend(
"BXLUMIVALUE_ET",
typeid(coral::Blob));
587 coral::IQuery* lumisummaryQuery=schema.newQuery();
589 lumisummaryQuery->addToOutputList(
"CMSLSNUM");
590 lumisummaryQuery->addToOutputList(
"INSTLUMI");
591 lumisummaryQuery->addToOutputList(
"STARTORBIT");
592 lumisummaryQuery->addToOutputList(
"NUMORBIT");
593 lumisummaryQuery->addToOutputList(
"CMSBXINDEXBLOB");
594 lumisummaryQuery->addToOutputList(
"BEAMINTENSITYBLOB_1");
595 lumisummaryQuery->addToOutputList(
"BEAMINTENSITYBLOB_2");
596 lumisummaryQuery->addToOutputList(
"BXLUMIVALUE_OCC1");
597 lumisummaryQuery->addToOutputList(
"BXLUMIVALUE_OCC2");
598 lumisummaryQuery->addToOutputList(
"BXLUMIVALUE_ET");
599 lumisummaryQuery->setCondition(
"CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:lumidataid",lumisummaryBindVariables);
600 lumisummaryQuery->defineOutput(lumisummaryOutput);
601 coral::ICursor& lumisummarycursor=lumisummaryQuery->execute();
602 unsigned int rowcounter=0;
603 while( lumisummarycursor.next() ){
604 const coral::AttributeList& row=lumisummarycursor.currentRow();
605 unsigned int cmslsnum=row[
"CMSLSNUM"].data<
unsigned int>();
608 lsdata.
lumivalue=row[
"INSTLUMI"].data<
float>();
609 lsdata.lumierror=0.0;
610 lsdata.lumiquality=0;
611 lsdata.startorbit=row[
"STARTORBIT"].data<
unsigned int>();
612 lsdata.numorbit=row[
"NUMORBIT"].data<
unsigned int>();
614 if(!row[
"CMSBXINDEXBLOB"].isNull() && !row[
"BXLUMIVALUE_OCC1"].isNull() ){
615 const coral::Blob& bxindexBlob=row[
"CMSBXINDEXBLOB"].data<coral::Blob>();
616 const void* bxindex_StartAddress=bxindexBlob.startingAddress();
617 short* bxindex=(
short*)::malloc(bxindexBlob.size());
618 const coral::Blob& beam1intensityBlob=row[
"BEAMINTENSITYBLOB_1"].data<coral::Blob>();
619 const void* beam1intensityBlob_StartAddress=beam1intensityBlob.startingAddress();
620 float* beam1intensity=(
float*)::malloc(beam1intensityBlob.size());
621 const coral::Blob& beam2intensityBlob=row[
"BEAMINTENSITYBLOB_2"].data<coral::Blob>();
622 const void* beam2intensityBlob_StartAddress=beam2intensityBlob.startingAddress();
623 float* beam2intensity=(
float*)::malloc(beam2intensityBlob.size());
624 std::memmove(bxindex,bxindex_StartAddress,bxindexBlob.size());
625 std::memmove(beam1intensity,beam1intensityBlob_StartAddress,beam1intensityBlob.size());
626 std::memmove(beam2intensity,beam2intensityBlob_StartAddress,beam2intensityBlob.size());
628 unsigned int iMax = bxindexBlob.size()/
sizeof(short);
629 unsigned int lsb1Max = lsdata.beam1intensity.size();
630 unsigned int lsb2Max = lsdata.beam2intensity.size();
631 unsigned int ib1Max = beam1intensityBlob.size()/
sizeof(
float);
632 unsigned int ib2Max = beam2intensityBlob.size()/
sizeof(
float);
633 for(
unsigned int i=0;
i<iMax;++
i){
634 unsigned int idx=bxindex[
i];
635 if(ib1Max>
i && lsb1Max>idx){
636 lsdata.beam1intensity.at(idx)=beam1intensity[
i];
638 if(ib2Max>
i && lsb2Max>idx){
639 lsdata.beam2intensity.at(idx)=beam2intensity[
i];
643 ::free(beam1intensity);
644 ::free(beam2intensity);
646 const coral::Blob& bxlumivalBlob_occ1=row[
"BXLUMIVALUE_OCC1"].data<coral::Blob>();
647 const void* bxlumival_occ1_StartAddress=bxlumivalBlob_occ1.startingAddress();
648 float* bxlumival_occ1=(
float*)::malloc(bxlumivalBlob_occ1.size());
649 std::memmove(bxlumival_occ1,bxlumival_occ1_StartAddress,bxlumivalBlob_occ1.size());
650 std::vector<float> bxlumivalVec_occ1(bxlumival_occ1,bxlumival_occ1+bxlumivalBlob_occ1.size()/
sizeof(
float));
651 ::free(bxlumival_occ1);
652 lsdata.bunchlumivalue.push_back(std::make_pair(
std::string(
"OCC1"),bxlumivalVec_occ1));
653 lsdata.bunchlumierror.push_back(std::make_pair(
std::string(
"OCC1"),std::vector<float>(3564)));
654 lsdata.bunchlumiquality.push_back(std::make_pair(
std::string(
"OCC1"),std::vector<short>(3564)));
655 const coral::Blob& bxlumivalBlob_occ2=row[
"BXLUMIVALUE_OCC2"].data<coral::Blob>();
656 const void* bxlumival_occ2_StartAddress=bxlumivalBlob_occ2.startingAddress();
657 float* bxlumival_occ2=(
float*)::malloc(bxlumivalBlob_occ2.size());
658 std::memmove(bxlumival_occ2,bxlumival_occ2_StartAddress,bxlumivalBlob_occ2.size());
659 std::vector<float> bxlumivalVec_occ2(bxlumival_occ2,bxlumival_occ2+bxlumivalBlob_occ1.size()/
sizeof(
float));
660 ::free(bxlumival_occ2);
661 lsdata.bunchlumivalue.push_back(std::make_pair(
std::string(
"OCC2"),bxlumivalVec_occ2));
662 lsdata.bunchlumierror.push_back(std::make_pair(
std::string(
"OCC2"),std::vector<float>(3564)));
663 lsdata.bunchlumiquality.push_back(std::make_pair(
std::string(
"OCC2"),std::vector<short>(3564)));
665 const coral::Blob& bxlumivalBlob_et=row[
"BXLUMIVALUE_ET"].data<coral::Blob>();
666 const void* bxlumival_et_StartAddress=bxlumivalBlob_et.startingAddress();
667 float* bxlumival_et=(
float*)::malloc(bxlumivalBlob_et.size());
668 std::memmove(bxlumival_et,bxlumival_et_StartAddress,bxlumivalBlob_et.size());
669 std::vector<float> bxlumivalVec_et(bxlumival_et,bxlumival_et+bxlumivalBlob_et.size()/
sizeof(
float));
670 ::free(bxlumival_et);
671 lsdata.bunchlumivalue.push_back(std::make_pair(
std::string(
"ET"),bxlumivalVec_et));
672 lsdata.bunchlumierror.push_back(std::make_pair(
std::string(
"ET"),std::vector<float>(3564)));
673 lsdata.bunchlumiquality.push_back(std::make_pair(
std::string(
"ET"),std::vector<short>(3564)));
681 delete lumisummaryQuery;
686 coral::AttributeList trgBindVariables;
687 trgBindVariables.extend(
"lsmin",
typeid(
unsigned int));
688 trgBindVariables.extend(
"lsmax",
typeid(
unsigned int));
689 trgBindVariables.extend(
"trgdataid",
typeid(
unsigned long long));
690 trgBindVariables[
"lsmin"].data<
unsigned int>()=luminum;
691 trgBindVariables[
"lsmax"].data<
unsigned int>()=luminum+m_cachesize;
692 trgBindVariables[
"trgdataid"].data<
unsigned long long>()=m_cachedtrgdataid;
693 coral::AttributeList trgOutput;
694 trgOutput.extend(
"CMSLSNUM",
typeid(
unsigned int));
695 trgOutput.extend(
"DEADTIMECOUNT",
typeid(
unsigned long long));
696 trgOutput.extend(
"BITZEROCOUNT",
typeid(
unsigned int));
697 trgOutput.extend(
"BITZEROPRESCALE",
typeid(
unsigned int));
698 trgOutput.extend(
"PRESCALEBLOB",
typeid(coral::Blob));
699 trgOutput.extend(
"TRGCOUNTBLOB",
typeid(coral::Blob));
701 coral::IQuery* trgQuery=schema.newQuery();
703 trgQuery->addToOutputList(
"CMSLSNUM");
704 trgQuery->addToOutputList(
"DEADTIMECOUNT");
705 trgQuery->addToOutputList(
"BITZEROCOUNT");
706 trgQuery->addToOutputList(
"BITZEROPRESCALE");
707 trgQuery->addToOutputList(
"PRESCALEBLOB");
708 trgQuery->addToOutputList(
"TRGCOUNTBLOB");
709 trgQuery->setCondition(
"CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:trgdataid",trgBindVariables);
710 trgQuery->defineOutput(trgOutput);
711 coral::ICursor& trgcursor=trgQuery->execute();
712 while( trgcursor.next() ){
713 const coral::AttributeList& row=trgcursor.currentRow();
714 unsigned int cmslsnum=row[
"CMSLSNUM"].data<
unsigned int>();
716 lsdata.
deadcount=row[
"DEADTIMECOUNT"].data<
unsigned long long>();
717 lsdata.bitzerocount=row[
"BITZEROCOUNT"].data<
unsigned int>();
718 lsdata.bitzeroprescale=row[
"BITZEROPRESCALE"].data<
unsigned int>();
719 if(!row[
"PRESCALEBLOB"].isNull()){
720 const coral::Blob& prescaleblob=row[
"PRESCALEBLOB"].data<coral::Blob>();
721 const void* prescaleblob_StartAddress=prescaleblob.startingAddress();
722 unsigned int* prescales=(
unsigned int*)::malloc(prescaleblob.size());
723 std::memmove(prescales,prescaleblob_StartAddress,prescaleblob.size());
724 const coral::Blob& trgcountblob=row[
"TRGCOUNTBLOB"].data<coral::Blob>();
725 const void* trgcountblob_StartAddress=trgcountblob.startingAddress();
726 unsigned int* trgcounts=(
unsigned int*)::malloc(trgcountblob.size());
727 std::memmove(trgcounts,trgcountblob_StartAddress,trgcountblob.size());
728 for(
unsigned int i=0;
i < trgcountblob.size()/
sizeof(
unsigned int); ++
i){
730 l1tmp.
bitname=m_runcache.TRGBitNames[
i];
733 lsdata.l1data.push_back(l1tmp);
743 coral::AttributeList hltBindVariables;
744 hltBindVariables.extend(
"lsmin",
typeid(
unsigned int));
745 hltBindVariables.extend(
"lsmax",
typeid(
unsigned int));
746 hltBindVariables.extend(
"hltdataid",
typeid(
unsigned long long));
747 hltBindVariables[
"lsmin"].data<
unsigned int>()=luminum;
748 hltBindVariables[
"lsmax"].data<
unsigned int>()=luminum+m_cachesize;
749 hltBindVariables[
"hltdataid"].data<
unsigned long long>()=m_cachedhltdataid;
750 coral::AttributeList hltOutput;
751 hltOutput.extend(
"CMSLSNUM",
typeid(
unsigned int));
752 hltOutput.extend(
"HLTCOUNTBLOB",
typeid(coral::Blob));
753 hltOutput.extend(
"HLTACCEPTBLOB",
typeid(coral::Blob));
754 hltOutput.extend(
"PRESCALEBLOB",
typeid(coral::Blob));
755 coral::IQuery* hltQuery=schema.newQuery();
757 hltQuery->addToOutputList(
"CMSLSNUM");
758 hltQuery->addToOutputList(
"HLTCOUNTBLOB");
759 hltQuery->addToOutputList(
"HLTACCEPTBLOB");
760 hltQuery->addToOutputList(
"PRESCALEBLOB");
761 hltQuery->setCondition(
"CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:hltdataid",hltBindVariables);
762 hltQuery->defineOutput(hltOutput);
763 coral::ICursor& hltcursor=hltQuery->execute();
764 while( hltcursor.next() ){
765 const coral::AttributeList& row=hltcursor.currentRow();
766 unsigned int cmslsnum=row[
"CMSLSNUM"].data<
unsigned int>();
768 if(!row[
"PRESCALEBLOB"].isNull()){
769 const coral::Blob& hltprescaleblob=row[
"PRESCALEBLOB"].data<coral::Blob>();
770 const void* hltprescaleblob_StartAddress=hltprescaleblob.startingAddress();
771 unsigned int* hltprescales=(
unsigned int*)::malloc(hltprescaleblob.size());
772 std::memmove(hltprescales,hltprescaleblob_StartAddress,hltprescaleblob.size());
773 const coral::Blob& hltcountblob=row[
"HLTCOUNTBLOB"].data<coral::Blob>();
774 const void* hltcountblob_StartAddress=hltcountblob.startingAddress();
775 unsigned int* hltcounts=(
unsigned int*)::malloc(hltcountblob.size());
776 std::memmove(hltcounts,hltcountblob_StartAddress,hltcountblob.size());
777 const coral::Blob& hltacceptblob=row[
"HLTACCEPTBLOB"].data<coral::Blob>();
778 const void* hltacceptblob_StartAddress=hltacceptblob.startingAddress();
779 unsigned int* hltaccepts=(
unsigned int*)::malloc(hltacceptblob.size());
780 std::memmove(hltaccepts,hltacceptblob_StartAddress,hltacceptblob.size());
781 unsigned int nhltaccepts = hltacceptblob.size()/
sizeof(
unsigned int);
782 if(nhltaccepts > 0 && m_runcache.HLTPathNames.empty()){
784 <<
" hltaccepts, but the run chache is empty. hltdata will not be written";
788 for(
unsigned int i=0;
i < hltacceptblob.size()/
sizeof(
unsigned int); ++
i){
790 hlttmp.
pathname=m_runcache.HLTPathNames[
i];
794 lsdata.hltdata.push_back(hlttmp);
796 ::free(hltprescales);
802 session->transaction().commit();
804 session->transaction().rollback();
811 auto pIn1 = std::make_unique<LumiSummary>();
812 auto pIn2 = std::make_unique<LumiDetails>();
814 pIn1->setLumiVersion(
"-1");
815 pIn2->setLumiVersion(
"-1");
823 if(!lsdata.
l1data.empty()){
829 pIn1->setlsnumber(luminum);
831 std::vector<LumiSummary::L1> l1temp;
832 for(std::vector< L1Data >::iterator it=lsdata.
l1data.begin();it!=lsdata.
l1data.end();++it){
836 l1temp.push_back(trgtmp);
838 std::vector<LumiSummary::HLT> hlttemp;
839 for(std::vector< HLTData >::iterator it=lsdata.
hltdata.begin();it!=lsdata.
hltdata.end();++it){
841 hlttmp.
pathnameidx=m_runcache.HLTPathNameToIndex[it->pathname];;
843 hlttemp.push_back(hlttmp);
845 pIn1->swapL1Data(l1temp);
846 pIn1->swapHLTData(hlttemp);
847 pIn1->setLumiVersion(m_lumiversion);
851 if(algoname==
"OCC1"){
853 }
else if(algoname==
"OCC2"){
855 }
else if(algoname==
"ET"){
857 }
else if(algoname==
"PLT"){
861 pIn2->setLumiVersion(m_lumiversion);
void writeProductsForEntry(edm::LuminosityBlock &iLBlock, unsigned int runnumber, unsigned int luminum)
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
std::vector< std::pair< std::string, std::vector< float > > > bunchlumivalue
static const std::string trgdataTableName()
unsigned int bitzeroprescale
std::vector< float > beam1intensity
#define DEFINE_FWK_MODULE(type)
void produce(edm::Event &, const edm::EventSetup &) final
static const std::string lshltTableName()
XMLCh * s2x(const std::string &input) const
unsigned long long getLumiDataId(const coral::ISchema &schema, unsigned int runnumber)
ISessionProxyPtr connectReadOnly(const std::string &connectstring)
void beginLuminosityBlockProduce(edm::LuminosityBlock &iLBlock, edm::EventSetup const &iSetup) final
static const std::string lstrgTableName()
static std::string const input
LuminosityBlockNumber_t luminosityBlock() const
static const std::string hltdataTableName()
std::map< std::string, unsigned int > HLTPathNameToIndex
unsigned long long getHltDataId(const coral::ISchema &schema, unsigned int runnumber)
void beginRun(edm::Run const &, edm::EventSetup const &) final
void endRun(edm::Run const &, edm::EventSetup const &) final
std::string toParentString(const xercesc::DOMNode &nodeToConvert) const
std::vector< std::pair< std::string, std::vector< float > > > bunchlumierror
void put(std::unique_ptr< PROD > product)
Put a new product.
void fillLSCache(unsigned int luminum)
std::vector< HLTData > hltdata
static const std::string tagsTableName()
unsigned int bitzerocount
static const std::string lumidataTableName()
unsigned long long getTrgDataId(const coral::ISchema &schema, unsigned int runnumber)
std::vector< L1Data > l1data
void put(std::unique_ptr< PROD > product)
Put a new product.
std::vector< std::string > TRGBitNames
static const std::string lumisummaryv2TableName()
unsigned long long deadcount
std::vector< std::vector< double > > tmp
std::string getCurrentDataTag(const coral::ISchema &schema)
void fillRunCache(const coral::ISchema &schema, unsigned int runnumber)
const std::string servletTranslation(const std::string &servlet) const
std::vector< std::string > HLTPathNames
std::vector< std::pair< std::string, std::vector< short > > > bunchlumiquality
std::map< std::string, unsigned int > TRGBitNameToIndex
void endRunProduce(edm::Run &, edm::EventSetup const &) final
std::vector< float > beam2intensity