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SiStripFedCablingBuilderFromDb Class Reference

#include <SiStripFedCablingBuilderFromDb.h>

Inheritance diagram for SiStripFedCablingBuilderFromDb:
SiStripFedCablingESProducer edm::EventSetupRecordIntervalFinder edm::ESProducer edm::ESProxyFactoryProducer edm::eventsetup::DataProxyProvider

Public Member Functions

SiStripFedCablingmake (const SiStripFedCablingRcd &) override
 
 SiStripFedCablingBuilderFromDb (const edm::ParameterSet &)
 
 ~SiStripFedCablingBuilderFromDb () override
 
- Public Member Functions inherited from SiStripFedCablingESProducer
const SiStripFedCablingESProduceroperator= (const SiStripFedCablingESProducer &)=delete
 
virtual std::unique_ptr< SiStripFedCablingproduce (const SiStripFedCablingRcd &)
 
 SiStripFedCablingESProducer (const edm::ParameterSet &)
 
 SiStripFedCablingESProducer (const SiStripFedCablingESProducer &)=delete
 
 ~SiStripFedCablingESProducer () override
 
- Public Member Functions inherited from edm::ESProducer
 ESProducer ()
 
 ESProducer (const ESProducer &)=delete
 
ESProxyIndex const * getTokenIndices (unsigned int iIndex) const
 
ESRecordIndex const * getTokenRecordIndices (unsigned int iIndex) const
 
bool hasMayConsumes () const noexcept
 
size_t numberOfTokenIndices (unsigned int iIndex) const
 
ESProducer const & operator= (const ESProducer &)=delete
 
SerialTaskQueueChainqueue ()
 
template<typename Record >
std::optional< std::vector< ESProxyIndex > > updateFromMayConsumes (unsigned int iIndex, const Record &iRecord) const
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &) final
 
 ~ESProducer () noexcept(false) override
 
- Public Member Functions inherited from edm::ESProxyFactoryProducer
 ESProxyFactoryProducer ()
 
 ESProxyFactoryProducer (const ESProxyFactoryProducer &)=delete
 
const ESProxyFactoryProduceroperator= (const ESProxyFactoryProducer &)=delete
 
 ~ESProxyFactoryProducer () noexcept(false) override
 
- Public Member Functions inherited from edm::eventsetup::DataProxyProvider
void createKeyedProxies (EventSetupRecordKey const &key, unsigned int nConcurrentIOVs)
 
 DataProxyProvider ()
 
 DataProxyProvider (const DataProxyProvider &)=delete
 
const ComponentDescriptiondescription () const
 
void fillRecordsNotAllowingConcurrentIOVs (std::set< EventSetupRecordKey > &recordsNotAllowingConcurrentIOVs) const
 
virtual void initConcurrentIOVs (EventSetupRecordKey const &key, unsigned int nConcurrentIOVs)
 
bool isUsingRecord (const EventSetupRecordKey &key) const
 
KeyedProxieskeyedProxies (const EventSetupRecordKey &iRecordKey, unsigned int iovIndex=0)
 
const DataProxyProvideroperator= (const DataProxyProvider &)=delete
 
void setAppendToDataLabel (const edm::ParameterSet &)
 
void setDescription (const ComponentDescription &iDescription)
 
std::set< EventSetupRecordKeyusingRecords () const
 
virtual ~DataProxyProvider () noexcept(false)
 
- Public Member Functions inherited from edm::EventSetupRecordIntervalFinder
bool concurrentFinder () const
 
const eventsetup::ComponentDescriptiondescriptionForFinder () const
 
 EventSetupRecordIntervalFinder ()
 
 EventSetupRecordIntervalFinder (const EventSetupRecordIntervalFinder &)=delete
 
std::set< eventsetup::EventSetupRecordKeyfindingForRecords () const
 
const ValidityIntervalfindIntervalFor (const eventsetup::EventSetupRecordKey &, const IOVSyncValue &)
 
bool nonconcurrentAndIOVNeedsUpdate (const eventsetup::EventSetupRecordKey &key, const IOVSyncValue &syncValue) const
 
const EventSetupRecordIntervalFinderoperator= (const EventSetupRecordIntervalFinder &)=delete
 
void resetInterval (const eventsetup::EventSetupRecordKey &)
 
void setDescriptionForFinder (const eventsetup::ComponentDescription &iDescription)
 
virtual ~EventSetupRecordIntervalFinder () noexcept(false)
 

Static Public Member Functions

static void buildFecCabling (SiStripConfigDb *const, SiStripFecCabling &, const sistrip::CablingSource &)
 
static void buildFecCabling (SiStripConfigDb *const, SiStripFecCabling &)
 
static void buildFecCablingFromDetIds (SiStripConfigDb *const, SiStripFecCabling &)
 
static void buildFecCablingFromDevices (SiStripConfigDb *const, SiStripFecCabling &)
 
static void buildFecCablingFromFedConnections (SiStripConfigDb *const, SiStripFecCabling &)
 
static void getFecCabling (const SiStripFedCabling &in, SiStripFecCabling &out)
 
static void getFedCabling (const SiStripFecCabling &in, SiStripFedCabling &out)
 
- Static Public Member Functions inherited from SiStripFedCablingESProducer
static uint16_t ccuAddr (const uint16_t &nth_module)
 
static uint16_t ccuChan (const uint16_t &nth_module)
 
static uint16_t fecCrate (const uint16_t &nth_module)
 
static uint16_t fecRing (const uint16_t &nth_module)
 
static uint16_t fecSlot (const uint16_t &nth_module)
 
- Static Public Member Functions inherited from edm::eventsetup::DataProxyProvider
static void prevalidate (ConfigurationDescriptions &)
 

Protected Member Functions

void setIntervalFor (const edm::eventsetup::EventSetupRecordKey &, const edm::IOVSyncValue &, edm::ValidityInterval &) override
 
virtual void writeFedCablingToCondDb (const SiStripFedCabling &)
 
- Protected Member Functions inherited from edm::ESProducer
template<typename T >
auto setWhatProduced (T *iThis, const es::Label &iLabel={})
 
template<typename T >
auto setWhatProduced (T *iThis, const char *iLabel)
 
template<typename T >
auto setWhatProduced (T *iThis, const std::string &iLabel)
 
template<typename T , typename TDecorator >
auto setWhatProduced (T *iThis, const TDecorator &iDec, const es::Label &iLabel={})
 
template<typename T , typename TReturn , typename TRecord >
auto setWhatProduced (T *iThis, TReturn(T ::*iMethod)(const TRecord &), const es::Label &iLabel={})
 
template<typename T , typename TReturn , typename TRecord , typename TArg >
auto setWhatProduced (T *iThis, TReturn(T ::*iMethod)(const TRecord &), const TArg &iDec, const es::Label &iLabel={})
 
template<typename TFunc >
auto setWhatProduced (TFunc &&func, const es::Label &iLabel={})
 
template<typename TReturn , typename TRecord , typename TFunc , typename TDecorator >
ESConsumesCollectorT< TRecord > setWhatProduced (TFunc &&func, TDecorator &&iDec, const es::Label &iLabel={})
 
void usesResources (std::vector< std::string > const &)
 
- Protected Member Functions inherited from edm::ESProxyFactoryProducer
template<class TFactory >
void registerFactory (std::unique_ptr< TFactory > iFactory, const std::string &iLabel=std::string())
 
virtual void registerFactoryWithKey (const EventSetupRecordKey &iRecord, std::unique_ptr< eventsetup::ProxyFactoryBase > iFactory, const std::string &iLabel=std::string())
 
KeyedProxiesVector registerProxies (const EventSetupRecordKey &, unsigned int iovIndex) override
 
- Protected Member Functions inherited from edm::eventsetup::DataProxyProvider
template<class T >
void usingRecord ()
 
void usingRecordWithKey (const EventSetupRecordKey &key)
 
- Protected Member Functions inherited from edm::EventSetupRecordIntervalFinder
template<class T >
void findingRecord ()
 
void findingRecordWithKey (const eventsetup::EventSetupRecordKey &)
 

Static Protected Member Functions

static void assignDcuAndDetIds (SiStripFecCabling &, const std::vector< std::pair< uint32_t, TkDcuInfo *> > &)
 

Protected Attributes

SiStripConfigDbdb_
 
sistrip::CablingSource source_
 

Additional Inherited Members

- Protected Types inherited from edm::ESProxyFactoryProducer
using EventSetupRecordKey = eventsetup::EventSetupRecordKey
 
- Protected Types inherited from edm::eventsetup::DataProxyProvider
using KeyedProxiesVector = std::vector< std::pair< DataKey, std::shared_ptr< DataProxy > >>
 

Detailed Description

Definition at line 18 of file SiStripFedCablingBuilderFromDb.h.

Constructor & Destructor Documentation

◆ SiStripFedCablingBuilderFromDb()

SiStripFedCablingBuilderFromDb::SiStripFedCablingBuilderFromDb ( const edm::ParameterSet pset)

Definition at line 21 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripEnumsAndStrings::cablingSource(), LogTrace, sistrip::mlCabling_, muonDTDigis_cfi::pset, source, and source_.

23  findingRecord<SiStripFedCablingRcd>();
24 
25  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
26  << " Constructing object...";
27 
28  // Defined cabling "source" (connections, devices, detids)
29  string source = pset.getUntrackedParameter<string>("CablingSource", "UNDEFINED");
31 
32  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
33  << " CablingSource configurable set to \"" << source << "\""
34  << ". CablingSource member data set to: \"" << SiStripEnumsAndStrings::cablingSource(source_)
35  << "\"";
36 }
#define LogTrace(id)
static const char mlCabling_[]
SiStripFedCablingESProducer(const edm::ParameterSet &)
static std::string cablingSource(const sistrip::CablingSource &)
static std::string const source
Definition: EdmProvDump.cc:49

◆ ~SiStripFedCablingBuilderFromDb()

SiStripFedCablingBuilderFromDb::~SiStripFedCablingBuilderFromDb ( )
override

Definition at line 40 of file SiStripFedCablingBuilderFromDb.cc.

References LogTrace, and sistrip::mlCabling_.

40  {
41  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
42  << " Destructing object...";
43 }
#define LogTrace(id)
static const char mlCabling_[]

Member Function Documentation

◆ assignDcuAndDetIds()

void SiStripFedCablingBuilderFromDb::assignDcuAndDetIds ( SiStripFecCabling fec_cabling,
const std::vector< std::pair< uint32_t, TkDcuInfo *> > &  _in 
)
staticprotected

Definition at line 803 of file SiStripFedCablingBuilderFromDb.cc.

References ewkTauDQM_cfi::channels, SiStripFecCabling::crates(), TauDecayModes::dec, SiStripConfigDb::findDcuDetId(), recoMuon::in, LogTrace, combine::missing, sistrip::mlCabling_, callgraph::module, castor_dqm_sourceclient_file_cfg::path, contentValuesCheck::ss, and susybsm::HSCParticleType::unknown.

Referenced by buildFecCablingFromDevices(), and buildFecCablingFromFedConnections().

804  {
805  std::vector<std::pair<uint32_t, TkDcuInfo*> > in = _in;
806  // ---------- Check if entries found in DCU-DetId vector ----------
807 
808  if (in.empty()) {
809  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
810  << " No entries in DCU-DetId vector!";
811  }
812 
813  // ---------- Assign DCU and DetId to Modules in FEC cabling object ----------
814 
815  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
816  << " Assigning DCU ids and DetIds to constructed modules...";
817 
818  uint16_t channels = 0;
819  uint16_t six = 0;
820  uint16_t four = 0;
821  uint16_t unknown = 0;
822  uint16_t missing = 0;
823 
824  for (vector<SiStripFecCrate>::const_iterator icrate = fec_cabling.crates().begin();
825  icrate != fec_cabling.crates().end();
826  icrate++) {
827  for (vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin(); ifec != icrate->fecs().end(); ifec++) {
828  for (vector<SiStripRing>::const_iterator iring = ifec->rings().begin(); iring != ifec->rings().end(); iring++) {
829  for (vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin(); iccu != iring->ccus().end(); iccu++) {
830  for (vector<SiStripModule>::const_iterator imod = iccu->modules().begin(); imod != iccu->modules().end();
831  imod++) {
832  SiStripModule& module = const_cast<SiStripModule&>(*imod);
833 
834  //@@ TEMP FIX UNTIL LAURENT DEBUGS FedChannelConnectionDescription CLASS
835  module.nApvPairs(0);
836 
837  // --- Check for null DCU ---
838 
839  if (!module.dcuId()) {
841  icrate->fecCrate(), ifec->fecSlot(), iring->fecRing(), iccu->ccuAddr(), imod->ccuChan());
842  uint32_t module_key = path.key();
843  module.dcuId(module_key); // Assign DCU id equal to control key
844  stringstream ss;
845  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
846  << " Found NULL DcuId! Setting 'dummy' value based control key 0x" << hex << setw(8) << setfill('0')
847  << module_key << dec;
848  edm::LogWarning(mlCabling_) << ss.str();
849  }
850 
851  // --- Check for null DetId ---
852 
853  if (!module.detId()) {
854  // --- Search for DcuId in map ---
855 
856  SiStripConfigDb::DcuDetIdsV::iterator iter = in.end();
857  iter = SiStripConfigDb::findDcuDetId(in.begin(), in.end(), module.dcuId());
858  if (iter != in.end()) {
859  if (!(iter->second)) {
860  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
861  << " NULL pointer to TkDcuInfo!";
862  continue;
863  }
864 
865  // --- Assign DetId and set nApvPairs based on APVs found in given Module ---
866 
867  module.detId(iter->second->getDetId());
868  module.nApvPairs(0);
869 
870  // count expected channels
871  uint16_t pairs = iter->second->getApvNumber() / 2;
872  channels += pairs;
873  if (pairs == 2) {
874  four++;
875  } else if (pairs == 3) {
876  six++;
877  } else {
878  unknown++;
879  }
880 
881  // --- Check number of APV pairs is valid and consistent with cached map ---
882 
883  if (module.nApvPairs() != 2 && module.nApvPairs() != 3) {
884  missing += (iter->second->getApvNumber() / 2 - module.nApvPairs());
885  stringstream ss1;
886  ss1 << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]" << std::endl
887  << " Module with DCU id 0x" << hex << setw(8) << setfill('0') << module.dcuId() << dec
888  << " and DetId 0x" << hex << setw(8) << setfill('0') << module.detId() << dec
889  << " has unexpected number of APV pairs (" << module.nApvPairs() << ")." << std::endl
890  << " Some APV pairs may have not been detected by the FEC scan." << std::endl
891  << " Setting to value found in static map (" << iter->second->getApvNumber() / 2 << ")...";
892  edm::LogWarning(mlCabling_) << ss1.str();
893  module.nApvPairs(iter->second->getApvNumber() / 2);
894 
895  } else if (module.nApvPairs() < iter->second->getApvNumber() / 2) {
896  missing += (iter->second->getApvNumber() / 2 - module.nApvPairs());
897  stringstream ss2;
898  ss2 << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]" << std::endl
899  << " Module with DCU id 0x" << hex << setw(8) << setfill('0') << module.dcuId() << dec
900  << " and DetId 0x" << hex << setw(8) << setfill('0') << module.detId() << dec
901  << " has number of APV pairs (" << module.nApvPairs()
902  << ") that does not match value found in DCU-DetId vector (" << iter->second->getApvNumber() / 2
903  << ")." << std::endl
904  << " Some APV pairs may have not been detected by"
905  << " the FEC scan or the DCU-DetId vector may be incorrect." << std::endl
906  << " Setting to value found in static map (" << iter->second->getApvNumber() / 2 << ")...";
907  edm::LogWarning(mlCabling_) << ss2.str();
908  module.nApvPairs(iter->second->getApvNumber() / 2);
909  }
910 
911  // --- Check for null fibre length ---
912 
913  if (!module.length()) {
914  module.length(static_cast<uint16_t>(iter->second->getFibreLength()));
915  }
916 
917  // --- Remove TkDcuInfo object from cached map ---
918 
919  in.erase(iter);
920 
921  } // Set for DCU in static table
922  } // Check for null DetId
923 
924  } // Module loop
925  } // CCU loop
926  } // FEC ring loop
927  } // FEC loop
928  } // FEC crate loop
929 
930  std::stringstream sss;
931  sss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]" << std::endl
932  << " Connections in DCU-DetId map : " << channels << std::endl
933  << " 4-APV modules : " << four << std::endl
934  << " 6-APV modules : " << six << std::endl
935  << " Unknown number of APV pairs : " << unknown << std::endl
936  << " Total found APV pairs : " << (channels - missing) << std::endl
937  << " Total missing APV pairs : " << missing << std::endl;
938  edm::LogVerbatim(mlCabling_) << sss.str();
939 
940  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
941  << " Finished assigning DCU ids and DetIds to constructed modules...";
942 
943  // ---------- "Randomly" assign DetIds to Modules with DCU ids not found in static table ----------
944 
945  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
946  << " Assigning \"random\" DetIds to modules with DCU ids not found in static table...";
947 
948  uint32_t detid = 0x10000; // Incremented "dummy" DetId
949  for (vector<SiStripFecCrate>::const_iterator icrate = fec_cabling.crates().begin();
950  icrate != fec_cabling.crates().end();
951  icrate++) {
952  for (vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin(); ifec != icrate->fecs().end(); ifec++) {
953  for (vector<SiStripRing>::const_iterator iring = ifec->rings().begin(); iring != ifec->rings().end(); iring++) {
954  for (vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin(); iccu != iring->ccus().end(); iccu++) {
955  for (vector<SiStripModule>::const_iterator imod = iccu->modules().begin(); imod != iccu->modules().end();
956  imod++) {
957  SiStripModule& module = const_cast<SiStripModule&>(*imod);
958 
959  // --- Check for null DetId and search for DCU in cached map ---
960 
961  if (!module.detId()) {
962  SiStripConfigDb::DcuDetIdsV::iterator iter = in.end();
963  iter = SiStripConfigDb::findDcuDetId(in.begin(), in.end(), module.dcuId());
964  if (iter != in.end()) {
965  // --- Search for "random" module with consistent number of APV pairs ---
966 
967  SiStripConfigDb::DcuDetIdsV::iterator idcu;
968  if (in.empty()) {
969  idcu = in.end();
970  } else {
971  idcu = in.begin();
972  while (idcu != in.end()) {
973  if (idcu->second) {
974  if (static_cast<uint32_t>(idcu->second->getApvNumber()) ==
975  static_cast<uint32_t>(2 * module.nApvPairs())) {
976  break;
977  }
978  }
979  idcu++;
980  }
981  }
982 
983  // --- Assign "random" DetId if number of APV pairs is consistent ---
984 
985  if (idcu != in.end()) {
986  if (!(idcu->second)) {
987  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
988  << " NULL pointer to TkDcuInfo!";
989  continue;
990  }
991 
992  module.detId(idcu->second->getDetId());
993  in.erase(idcu);
994 
995  stringstream ss;
996  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
997  << " Did not find module with DCU id 0x" << hex << setw(8) << setfill('0') << module.dcuId() << dec
998  << " in DCU-DetId vector!" << endl
999  << " Assigned 'random' DetId 0x" << hex << setw(8) << setfill('0') << module.detId() << dec;
1000  edm::LogWarning(mlCabling_) << ss.str();
1001 
1002  } else { // --- Else, assign "dummy" DetId based on counter ---
1003 
1004  // If no match found, then assign DetId using incremented counter
1005  module.detId(detid);
1006  detid++;
1007 
1008  stringstream ss;
1009  if (in.empty()) {
1010  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
1011  << " Did not find module with DCU id 0x" << hex << setw(8) << setfill('0') << module.dcuId()
1012  << dec << " in DCU-DetId vector!"
1013  << " Could not assign 'random' DetId as DCU-DetID map is empty!"
1014  << " Assigned DetId based on incremented counter, with value 0x" << hex << setw(8)
1015  << setfill('0') << module.detId() << dec;
1016  } else {
1017  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
1018  << " Did not find module with DCU id 0x" << hex << setw(8) << setfill('0') << module.dcuId()
1019  << dec << " in DCU-DetId vector!"
1020  << " Could not assign 'random' DetId as no modules had appropriate number of APV pairs ("
1021  << module.nApvPairs() << "). Assigned DetId based on incremented counter, with value 0x" << hex
1022  << setw(8) << setfill('0') << module.detId() << dec;
1023  }
1024  edm::LogWarning(mlCabling_) << ss.str();
1025  }
1026  }
1027  }
1028 
1029  } // Module loop
1030  } // CCU loop
1031  } // FEC ring loop
1032  } // FEC loop
1033  } // FEC crate loop
1034 
1035  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
1036  << " Finished assigning \"random\" DetIds to modules with DCU ids not found in static table...";
1037 
1038  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
1039  << " Assigning \"random\" DetIds to modules with DCU ids not found in static table...";
1040 
1041  // ---------- Check for unassigned DetIds ----------
1042 
1043  if (!in.empty()) {
1044  stringstream ss;
1045  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
1046  << " Not all DetIds have been assigned to a DcuId! " << in.size() << " DetIds are unassigned!";
1047  edm::LogWarning(mlCabling_) << ss.str();
1048  }
1049 }
Log< level::Info, true > LogVerbatim
Device and connection information at the level of a front-end module.
Definition: SiStripModule.h:24
Log< level::Error, false > LogError
missing
Definition: combine.py:5
#define LogTrace(id)
Utility class that identifies a position within the strip tracker control structure, down to the level of an APV25.
Definition: SiStripFecKey.h:45
static const char mlCabling_[]
static DcuDetIdsV::const_iterator findDcuDetId(DcuDetIdsV::const_iterator begin, DcuDetIdsV::const_iterator end, uint32_t dcu_id)
Definition: DcuDetIds.cc:412
const std::vector< SiStripFecCrate > & crates() const
Log< level::Warning, false > LogWarning

◆ buildFecCabling() [1/2]

void SiStripFedCablingBuilderFromDb::buildFecCabling ( SiStripConfigDb * const  db,
SiStripFecCabling fec_cabling,
const sistrip::CablingSource source 
)
static

Generic method which builds FEC cabling. Call ones of the three methods below depending on the cabling "source" parameter (connections, devices, detids).

Definition at line 99 of file SiStripFedCablingBuilderFromDb.cc.

References buildFecCablingFromDetIds(), buildFecCablingFromDevices(), buildFecCablingFromFedConnections(), sistrip::CABLING_FROM_CONNS, sistrip::CABLING_FROM_DETIDS, sistrip::CABLING_FROM_DEVICES, SiStripEnumsAndStrings::cablingSource(), SiStripFecCabling::countDevices(), dqmiodatasetharvest::db, LogTrace, sistrip::mlCabling_, source, contentValuesCheck::ss, and sistrip::UNDEFINED_CABLING_SOURCE.

Referenced by SiStripCondObjBuilderFromDb::buildCondObj(), CommissioningHistosUsingDb::configure(), and make().

101  {
104  } else if (source == sistrip::CABLING_FROM_DEVICES) {
105  buildFecCablingFromDevices(db, fec_cabling);
106  } else if (source == sistrip::CABLING_FROM_DETIDS) {
107  buildFecCablingFromDetIds(db, fec_cabling);
109  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
110  << " Unexpected value for CablingSource: \"" << SiStripEnumsAndStrings::cablingSource(source)
111  << "\" Querying DB in order to build cabling from one of connections, devices or DetIds...";
112  buildFecCabling(db, fec_cabling);
113  return;
114 
115  } else {
116  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
117  << " Cannot build SiStripFecCabling object!"
118  << " sistrip::CablingSource has value: " << SiStripEnumsAndStrings::cablingSource(source);
119  return;
120  }
121 
122  // Debug
123  const NumberOfDevices& devs = fec_cabling.countDevices();
124  std::stringstream ss;
125  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
126  << " Built SiStripFecCabling object with following devices:" << endl
127  << devs;
128  edm::LogVerbatim(mlCabling_) << ss.str() << endl;
129 }
Log< level::Info, true > LogVerbatim
static void buildFecCablingFromDetIds(SiStripConfigDb *const, SiStripFecCabling &)
NumberOfDevices countDevices() const
Log< level::Error, false > LogError
#define LogTrace(id)
static const char mlCabling_[]
static void buildFecCabling(SiStripConfigDb *const, SiStripFecCabling &, const sistrip::CablingSource &)
Simple container class for counting devices.
static std::string cablingSource(const sistrip::CablingSource &)
static void buildFecCablingFromFedConnections(SiStripConfigDb *const, SiStripFecCabling &)
static std::string const source
Definition: EdmProvDump.cc:49
static void buildFecCablingFromDevices(SiStripConfigDb *const, SiStripFecCabling &)

◆ buildFecCabling() [2/2]

void SiStripFedCablingBuilderFromDb::buildFecCabling ( SiStripConfigDb * const  db,
SiStripFecCabling fec_cabling 
)
static

Generic method which builds FEC cabling. Call ones of the three methods below depending on what descriptions are available within the database or which xml files are available.

Definition at line 133 of file SiStripFedCablingBuilderFromDb.cc.

References buildFecCablingFromDetIds(), buildFecCablingFromDevices(), buildFecCablingFromFedConnections(), SiStripFecCabling::countDevices(), dqmiodatasetharvest::db, cms::alpakatools::devices(), LogTrace, sistrip::mlCabling_, and contentValuesCheck::ss.

133  {
134  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
135  << " Building cabling object...";
136 
137  if (!db->getFedConnections().empty()) {
139  } else if (!db->getDeviceDescriptions().empty()) {
140  buildFecCablingFromDevices(db, fec_cabling);
141  } else if (!db->getDcuDetIds().empty()) {
142  buildFecCablingFromDetIds(db, fec_cabling);
143  } else {
144  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
145  << " Cannot build SiStripFecCabling object!"
146  << " FedConnections, DeviceDescriptions and DcuDetIds vectors are all empty!";
147  return;
148  }
149 
150  // Debug
151  const NumberOfDevices& devices = fec_cabling.countDevices();
152  std::stringstream ss;
153  ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
154  << " Built SiStripFecCabling object with following devices:" << std::endl
155  << devices;
156  edm::LogVerbatim(mlCabling_) << ss.str() << endl;
157 }
Log< level::Info, true > LogVerbatim
static void buildFecCablingFromDetIds(SiStripConfigDb *const, SiStripFecCabling &)
NumberOfDevices countDevices() const
Log< level::Error, false > LogError
#define LogTrace(id)
static const char mlCabling_[]
Simple container class for counting devices.
std::vector< alpaka::Dev< TPlatform > > const & devices()
Definition: devices.h:36
static void buildFecCablingFromFedConnections(SiStripConfigDb *const, SiStripFecCabling &)
static void buildFecCablingFromDevices(SiStripConfigDb *const, SiStripFecCabling &)

◆ buildFecCablingFromDetIds()

void SiStripFedCablingBuilderFromDb::buildFecCablingFromDetIds ( SiStripConfigDb * const  db,
SiStripFecCabling fec_cabling 
)
static

Builds the SiStripFecCabling conditions object using information found within the "dcuinfo.xml" file (ie, based on DetIds). "Dummy" values are provided when necessary.

Builds the SiStripFedCabling conditions object that is available via the EventSetup interface. The object contains the full FedChannel-Dcu-DetId mapping information.

This method is typically used when only the Dcu-DetId map (ie, from "dcuinfo.xml") exists and the FED connections (ie, "module.xml" file) and device descriptions (ie, from "fec.xml") are both missing.

The map is built using the Dcu-DetId map that is cached by the SiStripConfigDb object. As a minimum, the map should contain values within both the DetId and APpvPair fields, but if any information is missing, the method provides "dummy" values.

Methodology:

The FEC cabling object is built using the Dcu-DetId map (ie, from "dcuinfo.xml"). For each entry, the DcuId, DetId and ApvPairs values are retrieved. For each ApvPair, a FED channel connection object is created using "dummy" hardware addresses.

If the DcuId (provided by the hardware device descriptions) is null, a dummy value is provided, based on the control key.

If the DetId is null, a value is assigned using an incremented counter (starting from 0xFFFF).

If the number of APV pairs is null, a value of 2 or 3 is randomly assigned.

Given that the FED channel connections are not known, APV pairs are cabled to "random" FED ids and channels.

All Dcu-DetId mappings are accumulated in a new map, and this modified map is returned by the method.

Definition at line 675 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripFecCabling::addDevices(), generateTowerEtThresholdLUT::addr, getInfo::conn, SiStripFecCabling::crates(), dqmiodatasetharvest::db, SiStripModule::fedCh(), SiStripKey::key(), LogTrace, sistrip::mlCabling_, and FastTimerService_cff::range.

Referenced by buildFecCabling().

676  {
677  edm::LogVerbatim(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
678  << " Building FEC cabling object from DetIds...";
679 
680  // ---------- Some initialization ----------
681 
682  // fec_cabling.clear();
683 
684  // chans_per_ring = chans_per_ccu * ccus_per_ring = 100 (TOB gives lower limit of 60)
685  uint32_t chans_per_ccu = 10;
686  uint32_t ccus_per_ring = 10;
687  uint32_t rings_per_fec = 8;
688  uint32_t fecs_per_crate = 11;
689 
690  // ---------- Retrieve necessary descriptions from database ----------
691 
692  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
693  << " Retrieving DCU-DetId vector from database...";
694  SiStripConfigDb::DcuDetIdsRange range = db->getDcuDetIds();
695  const SiStripConfigDb::DcuDetIdsV dcu_detid_vector(range.begin(), range.end());
696  if (!dcu_detid_vector.empty()) {
697  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
698  << " Found " << dcu_detid_vector.size()
699  << " entries in DCU-DetId vector retrieved from database!";
700  } else {
701  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
702  << " No entries in DCU-DetId vector retrieved from database!"
703  << " Unable to build FEC cabling!";
704  return;
705  }
706 
707  // ---------- Populate FEC cabling object with DCU, DetId and "dummy" control info ----------
708 
709  uint32_t imodule = 0;
710  SiStripConfigDb::DcuDetIdsV::const_iterator iter;
711  for (iter = dcu_detid_vector.begin(); iter != dcu_detid_vector.end(); iter++) {
712  if (!(iter->second)) {
713  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
714  << " NULL pointer to TkDcuInfo!";
715  continue;
716  }
717 
718  uint16_t fec_crate = (imodule / (chans_per_ccu * ccus_per_ring * rings_per_fec * fecs_per_crate)) + 1;
719  uint16_t fec_slot = (imodule / (chans_per_ccu * ccus_per_ring * rings_per_fec)) % fecs_per_crate + 2;
720  uint16_t fec_ring = (imodule / (chans_per_ccu * ccus_per_ring)) % rings_per_fec + 1;
721  uint16_t ccu_addr = (imodule / (chans_per_ccu)) % ccus_per_ring + 1;
722  uint16_t ccu_chan = (imodule) % chans_per_ccu + 16;
723 
724  uint32_t dcu_id = iter->second->getDcuHardId(); //
725  uint32_t det_id = iter->second->getDetId();
726  uint16_t npairs = iter->second->getApvNumber() / 2;
727  uint16_t length = (uint16_t)iter->second->getFibreLength(); //@@ should be double!
728 
729  // --- Check if DCU, DetId and nApvPairs are null ---
730 
731  if (!dcu_id) {
732  dcu_id = SiStripFecKey(fec_crate, fec_slot, fec_ring, ccu_addr, ccu_chan).key();
733  }
734  if (!det_id) {
735  det_id = 0xFFFF + imodule;
736  }
737  if (!npairs) {
738  npairs = rand() / 2 ? 2 : 3;
739  }
740 
741  // --- Construct FedChannelConnection objects ---
742 
743  for (uint16_t ipair = 0; ipair < npairs; ipair++) {
744  uint16_t iapv = (ipair == 1 && npairs == 2 ? 36 : 32 + 2 * ipair);
745  FedChannelConnection conn(fec_crate,
746  fec_slot,
747  fec_ring,
748  ccu_addr,
749  ccu_chan,
750  iapv,
751  iapv + 1,
752  dcu_id,
753  det_id,
754  npairs,
755  0,
756  0, // FED id and channel
757  length,
758  true,
759  true,
760  true,
761  true);
762  fec_cabling.addDevices(conn);
763  }
764 
765  imodule++;
766  }
767 
768  // ---------- Assign "dummy" FED ids/chans to Modules of FEC cabling object ----------
769 
770  uint32_t fed_id = 50;
771  uint32_t fed_ch = 0;
772  for (vector<SiStripFecCrate>::const_iterator icrate = fec_cabling.crates().begin();
773  icrate != fec_cabling.crates().end();
774  icrate++) {
775  for (vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin(); ifec != icrate->fecs().end(); ifec++) {
776  for (vector<SiStripRing>::const_iterator iring = ifec->rings().begin(); iring != ifec->rings().end(); iring++) {
777  for (vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin(); iccu != iring->ccus().end(); iccu++) {
778  for (vector<SiStripModule>::const_iterator imod = iccu->modules().begin(); imod != iccu->modules().end();
779  imod++) {
780  if (96 - fed_ch < imod->nApvPairs()) {
781  fed_id++;
782  fed_ch = 0;
783  } // move to next FED
784  for (uint16_t ipair = 0; ipair < imod->nApvPairs(); ipair++) {
785  pair<uint16_t, uint16_t> addr = imod->activeApvPair((*imod).lldChannel(ipair));
786  SiStripModule::FedChannel fed_channel(
787  (fed_id - 50) / 16 + 1, // 16 FEDs per crate, numbering starts from 1
788  (fed_id - 50) % 16 + 2, // FED slot starts from 2
789  fed_id,
790  fed_ch);
791  const_cast<SiStripModule&>(*imod).fedCh(addr.first, fed_channel);
792  fed_ch++;
793  }
794  }
795  }
796  }
797  }
798  }
799 }
Log< level::Info, true > LogVerbatim
Device and connection information at the level of a front-end module.
Definition: SiStripModule.h:24
DcuDetIds::range DcuDetIdsRange
void addDevices(const FedChannelConnection &conn)
#define LogTrace(id)
Utility class that identifies a position within the strip tracker control structure, down to the level of an APV25.
Definition: SiStripFecKey.h:45
static const char mlCabling_[]
Class containning control, module, detector and connection information, at the level of a FED channel...
const uint32_t & key() const
Definition: SiStripKey.h:120
FedChannel fedCh(const uint16_t &apv_pair_num) const
const std::vector< SiStripFecCrate > & crates() const
std::vector< DcuDetId > DcuDetIdsV
conn
Definition: getInfo.py:9
Log< level::Warning, false > LogWarning

◆ buildFecCablingFromDevices()

void SiStripFedCablingBuilderFromDb::buildFecCablingFromDevices ( SiStripConfigDb * const  db,
SiStripFecCabling fec_cabling 
)
static

Builds the SiStripFecCabling conditions object using information found within the "fec.xml" and "dcuinfo.xml" files. "Dummy" values are provided when necessary.

Builds the SiStripFedCabling conditions object that is available via the EventSetup interface. The object contains the full FedChannel-Dcu-DetId mapping information.

This method is typically used when the FED connections (ie, "module.xml" file) does not exist, such as prior to the FED cabling or "bare connection" procedure.

The map is built using information cached by the SiStripConfigDb object, comprising: 1) the hardware device descriptions, as found in the "fec.xml" file; 2) and Dcu-DetId mapping, as found in the "dcuinfo.xml" file. If any information is missing, the method provides "dummy" values.

Methodology:

The FEC cabling object is built using the hardware device descriptions (ie, from "fec.xml").

Given that the FED channel connections are not known, APV pairs are cabled to "random" FED ids and channels. FED ids are retrieved from any FED descriptions cached by the SiStripConfigDb object (ie, from "fed.xml"). A check is made to ensure sufficient FEDs exist to cable the entire control system. If not, the shortfall is met by generating FED ids using an incremented counter (starting from 50).

If the DcuId (provided by the hardware device descriptions) is null, a dummy value is provided, based on the control key.

The Dcu-DetId map (ie, from "dcuinfo.xml") is queried for a matching DcuId. If found, the DetId and ApvPairs are updated. If not, a "random" DetId within the Dcu-DetId map is assigned. Note that a check is made on the number of APV pairs before the DetId is assigned. If no appropriate match is found, the DetId is assigned a value using an incremented counter (starting from 0xFFFF).

All Dcu-DetId mappings are accumulated in a new map, and this modified map is returned by the method.

Definition at line 318 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripFecCabling::addDevices(), generateTowerEtThresholdLUT::addr, assignDcuAndDetIds(), SiStripFedCablingESProducer::ccuAddr(), SiStripFedCablingESProducer::ccuChan(), getInfo::conn, SiStripFecCabling::countDevices(), SiStripFecCabling::crates(), dqmiodatasetharvest::db, SiStripFecCabling::dcuId(), sistrip::FEC_CRATE_OFFSET, sistrip::FEC_RING_OFFSET, SiStripFedCablingESProducer::fecCrate(), SiStripFedCablingESProducer::fecRing(), SiStripFedCablingESProducer::fecSlot(), SiStripModule::fedCh(), SiStripFecKey::i2cAddr(), sistrip::invalid32_, crabWrapper::key, sistrip::LLD_CHAN_MAX, sistrip::LLD_CHAN_MIN, LogTrace, sistrip::mlCabling_, callgraph::module, SiStripModule::nApvPairs(), NumberOfDevices::print(), FastTimerService_cff::range, jetsAK4_CHS_cff::sort, and groupFilesInBlocks::temp.

Referenced by buildFecCabling(), and CommissioningHistosUsingDb::configure().

319  {
320  edm::LogVerbatim(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
321  << " Building FEC cabling object from device descriptions...";
322 
323  // ---------- Some initialization ----------
324 
325  // fec_cabling.clear(); //@@ Need to add method to "clear" FecCabling?
326 
327  // ---------- Retrieve APV descriptions from database ----------
328 
329  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
330  << " Retrieving APV descriptions from database...";
331  SiStripConfigDb::DeviceDescriptionsRange apv_desc = db->getDeviceDescriptions(APV25);
332  if (!apv_desc.empty()) {
333  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
334  << " Retrieved " << apv_desc.size() << " APV descriptions from database!";
335  } else {
336  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
337  << " Unable to build FEC cabling!"
338  << " No APV descriptions found!";
339  return;
340  }
341 
342  // ---------- Retrieve DCU descriptions from database ----------
343 
344  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
345  << " Retrieving DCU descriptions from database...";
346  SiStripConfigDb::DeviceDescriptionsRange dcu_desc = db->getDeviceDescriptions(DCU);
347 
348  if (!dcu_desc.empty()) {
349  uint16_t feh = 0;
350  uint16_t ccu = 0;
351  SiStripConfigDb::DeviceDescriptionsV::const_iterator idcu;
352  for (idcu = dcu_desc.begin(); idcu != dcu_desc.end(); idcu++) {
353  dcuDescription* dcu = dynamic_cast<dcuDescription*>(*idcu);
354  if (!dcu) {
355  continue;
356  }
357  if (dcu->getDcuType() == "FEH") {
358  feh++;
359  } else {
360  ccu++;
361  }
362  }
363 
364  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
365  << " Retrieved " << feh << " DCU-FEH descriptions from database!"
366  << " (and a further " << ccu << " DCUs for CCU modules, etc...)";
367 
368  } else {
369  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
370  << " No DCU descriptions found!";
371  }
372 
373  // ---------- Retrieve DCU-DetId vector from database ----------
374 
375  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
376  << " Retrieving DCU-DetId vector from database...";
377  SiStripConfigDb::DcuDetIdsRange range = db->getDcuDetIds();
378  const SiStripConfigDb::DcuDetIdsV dcu_detid_vector(range.begin(), range.end());
379  if (!dcu_detid_vector.empty()) {
380  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
381  << " Found " << dcu_detid_vector.size()
382  << " entries in DCU-DetId vector retrieved from database!";
383  } else {
384  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
385  << " No entries in DCU-DetId vector retrieved from database!";
386  }
387 
388  // ---------- Retrieve FED ids from database ----------
389 
390  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
391  << " Retrieving FED ids from database...";
392  SiStripConfigDb::FedIdsRange fed_ids = db->getFedIds();
393 
394  if (!fed_ids.empty()) {
395  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
396  << " Retrieved " << fed_ids.size() << " FED ids from database!";
397  } else {
398  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
399  << " No FED ids found!";
400  }
401 
402  // ---------- Populate FEC cabling object with retrieved info ----------
403 
404  edm::LogVerbatim(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
405  << " Building FEC cabling object from APV and DCU descriptions...";
406 
407  SiStripConfigDb::DeviceDescriptionsV::const_iterator iapv;
408  for (iapv = apv_desc.begin(); iapv != apv_desc.end(); iapv++) {
409  if (!(*iapv)) {
410  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
411  << " NULL pointer to DeviceDescription (of type APV25)!";
412  continue;
413  }
414 
415  SiStripConfigDb::DeviceAddress addr = db->deviceAddress(**iapv);
417  addr.fecSlot_,
418  addr.fecRing_ + sistrip::FEC_RING_OFFSET, //@@ temp
419  addr.ccuAddr_,
420  addr.ccuChan_,
421  addr.i2cAddr_);
422  fec_cabling.addDevices(conn);
423  }
424 
425  SiStripConfigDb::DeviceDescriptionsV::const_iterator idcu;
426  for (idcu = dcu_desc.begin(); idcu != dcu_desc.end(); idcu++) {
427  if (!(*idcu)) {
428  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
429  << " NULL pointer to DeviceDescription (of type DCU)!";
430  continue;
431  }
432 
433  SiStripConfigDb::DeviceAddress addr = db->deviceAddress(**idcu);
434  dcuDescription* dcu = dynamic_cast<dcuDescription*>(*idcu);
435  if (!dcu) {
436  continue;
437  }
438  if (dcu->getDcuType() != "FEH") {
439  continue;
440  }
442  addr.fecSlot_,
443  addr.fecRing_ + sistrip::FEC_RING_OFFSET, //@@ temp,
444  addr.ccuAddr_,
445  addr.ccuChan_,
446  0,
447  0, // APV I2C addresses not used
448  dcu->getDcuHardId());
449  fec_cabling.dcuId(conn);
450  }
451 
452  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
453  << " Finished building FEC cabling object from APV and DCU descriptions!";
454 
455  NumberOfDevices devs1 = fec_cabling.countDevices();
456  std::stringstream ss1;
457  ss1 << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
458  << " Number of devices in FEC cabling object:" << std::endl;
459  devs1.print(ss1);
460  LogTrace(mlCabling_) << ss1.str();
461 
462  // ---------- Counters used in assigning "dummy" FED ids and channels ----------
463 
464  std::vector<uint16_t>::const_iterator ifed = fed_ids.begin();
465  uint16_t fed_ch = 0;
466 
467  // ---------- Assign "dummy" FED crates/slots/ids/chans to constructed modules ----------
468 
469  std::vector<uint32_t> used_keys;
470 
471  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
472  << " Randomly assigning FED ids/channels to APV pairs in front-end modules...";
473 
474  if (fed_ids.empty()) {
475  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
476  << " No FED ids retrieved from database! Unable to cable system!";
477  } else {
478  bool complete = false;
479  std::vector<SiStripFecCrate>::const_iterator icrate = fec_cabling.crates().begin();
480  std::vector<SiStripFecCrate>::const_iterator jcrate = fec_cabling.crates().end();
481  while (!complete && icrate != jcrate) {
482  std::vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin();
483  std::vector<SiStripFec>::const_iterator jfec = icrate->fecs().end();
484  while (!complete && ifec != jfec) {
485  std::vector<SiStripRing>::const_iterator iring = ifec->rings().begin();
486  std::vector<SiStripRing>::const_iterator jring = ifec->rings().end();
487  while (!complete && iring != jring) {
488  std::vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin();
489  std::vector<SiStripCcu>::const_iterator jccu = iring->ccus().end();
490  while (!complete && iccu != jccu) {
491  std::vector<SiStripModule>::const_iterator imod = iccu->modules().begin();
492  std::vector<SiStripModule>::const_iterator jmod = iccu->modules().end();
493  while (!complete && imod != jmod) {
494  // Set number of APV pairs based on devices found
495  const_cast<SiStripModule&>(*imod).nApvPairs(0);
496 
497  used_keys.push_back(
498  SiStripFecKey(imod->fecCrate(), imod->fecSlot(), imod->fecRing(), imod->ccuAddr(), imod->ccuChan())
499  .key());
500 
501  // // Add middle LLD channel if missing (to guarantee all FED channels are cabled!)
502  // if ( imod->nApvPairs() == 2 ) {
503  // const_cast<SiStripModule&>(*imod).nApvPairs(3);
504  // FedChannelConnection temp( imod->fecCrate(),
505  // imod->fecSlot(),
506  // imod->fecRing(),
507  // imod->ccuAddr(),
508  // imod->ccuChan(),
509  // SiStripFecKey::i2cAddr(2,true),
510  // SiStripFecKey::i2cAddr(2,false) );
511  // const_cast<SiStripModule&>(*imod).addDevices( temp );
512  // }
513  // const_cast<SiStripModule&>(*imod).nApvPairs(0);
514 
515  // Iterate through APV pairs
516  for (uint16_t ipair = 0; ipair < imod->nApvPairs(); ipair++) {
517  // Check FED id and channel
518  if (ifed == fed_ids.end()) {
519  fed_ch++;
520  ifed = fed_ids.begin();
521  }
522  if (fed_ch == 96) {
523  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
524  << " Insufficient FED channels to cable all devices in control system!";
525  complete = true;
526  break;
527  }
528 
529  // Set "dummy" FED id and channel
530  pair<uint16_t, uint16_t> addr = imod->activeApvPair(imod->lldChannel(ipair));
531  SiStripModule::FedChannel fed_channel((*ifed) / 16 + 1, // 16 FEDs per crate, numbering starts from 1
532  (*ifed) % 16 + 2, // FED slot starts from 2
533  *ifed,
534  fed_ch);
535  const_cast<SiStripModule&>(*imod).fedCh(addr.first, fed_channel);
536  ifed++;
537  }
538 
539  imod++;
540  }
541  iccu++;
542  }
543  iring++;
544  }
545  ifec++;
546  }
547  icrate++;
548  }
549  }
550 
551  std::sort(used_keys.begin(), used_keys.end());
552 
553  NumberOfDevices devs2 = fec_cabling.countDevices();
554  std::stringstream ss2;
555  ss2 << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
556  << " Number of devices in FEC cabling object:" << std::endl;
557  devs2.print(ss2);
558  LogTrace(mlCabling_) << ss2.str();
559 
560  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
561  << " Finished randomly assigning FED ids/channels to APV pairs in front-end modules...";
562 
563  // ---------- Assign "dummy" devices to remaining FED ids/chans ----------
564 
566  << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
567  << " Assigning APV pairs in dummy front-end modules to any remaining \"uncabled\" FED ids/channels...";
568 
569  if (fed_ids.empty()) {
570  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
571  << " No FED ids retrieved from database! Unable to cable system!";
572  } else {
573  uint16_t module = 0;
574  bool complete = false;
575  while (!complete) {
576  for (uint16_t lld = sistrip::LLD_CHAN_MIN; lld < sistrip::LLD_CHAN_MAX + 1; lld++) {
577  // Check FED id and channel
578  if (ifed == fed_ids.end()) {
579  fed_ch++;
580  ifed = fed_ids.begin();
581  }
582  if (fed_ch == 96) {
583  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
584  << " All FED channels are now cabled!";
585  complete = true;
586  break;
587  }
588 
589  // commented because key is not used
590  //uint32_t key = SiStripFecKey( fecCrate( module ),
591  // fecSlot( module ),
592  // fecRing( module ),
593  // ccuAddr( module ),
594  // ccuChan( module ) ).key();
595 
596  //if ( std::find( used_keys.begin(), used_keys.end(), key ) != used_keys.end() ) { break; }
597 
599  fecSlot(module),
600  fecRing(module),
601  ccuAddr(module),
602  ccuChan(module),
603  SiStripFecKey::i2cAddr(lld, true),
604  SiStripFecKey::i2cAddr(lld, false),
607  3, // npairs
608  *ifed,
609  fed_ch);
610  uint16_t fed_crate = (*ifed) / 16 + 1; // 16 FEDs per crate, numbering starts from 1
611  uint16_t fed_slot = (*ifed) % 16 + 2; // FED slot starts from 2
612  temp.fedCrate(fed_crate);
613  temp.fedSlot(fed_slot);
614  fec_cabling.addDevices(temp);
615  ifed++;
616  }
617  module++;
618  }
619  }
620 
622  << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
623  << " Finished assigning APV pairs in dummy front-end modules to any remaining \"uncabled\" FED ids/channels...";
624 
625  NumberOfDevices devs3 = fec_cabling.countDevices();
626  std::stringstream ss3;
627  ss3 << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
628  << " Number of devices in FEC cabling object:" << std::endl;
629  devs3.print(ss3);
630  LogTrace(mlCabling_) << ss3.str();
631 
632  // ---------- Assign DCU and DetIds and then FED cabling ----------
633 
634  assignDcuAndDetIds(fec_cabling, dcu_detid_vector);
635 }
Log< level::Info, true > LogVerbatim
Device and connection information at the level of a front-end module.
Definition: SiStripModule.h:24
static uint16_t ccuAddr(const uint16_t &nth_module)
static uint16_t fecCrate(const uint16_t &nth_module)
DcuDetIds::range DcuDetIdsRange
static const uint32_t invalid32_
Definition: Constants.h:15
static const uint16_t LLD_CHAN_MIN
static const uint16_t LLD_CHAN_MAX
void addDevices(const FedChannelConnection &conn)
static const uint16_t FEC_RING_OFFSET
static void assignDcuAndDetIds(SiStripFecCabling &, const std::vector< std::pair< uint32_t, TkDcuInfo *> > &)
NumberOfDevices countDevices() const
const uint16_t & nApvPairs() const
static uint16_t fecSlot(const uint16_t &nth_module)
static uint16_t fecRing(const uint16_t &nth_module)
Log< level::Error, false > LogError
#define LogTrace(id)
Utility class that identifies a position within the strip tracker control structure, down to the level of an APV25.
Definition: SiStripFecKey.h:45
static const char mlCabling_[]
const uint16_t & i2cAddr() const
Class containning control, module, detector and connection information, at the level of a FED channel...
DeviceDescriptions::range DeviceDescriptionsRange
void print(std::stringstream &) const
void dcuId(const FedChannelConnection &conn)
FedChannel fedCh(const uint16_t &apv_pair_num) const
const std::vector< SiStripFecCrate > & crates() const
Simple container class for counting devices.
static uint16_t ccuChan(const uint16_t &nth_module)
std::vector< DcuDetId > DcuDetIdsV
boost::iterator_range< FedIds::const_iterator > FedIdsRange
conn
Definition: getInfo.py:9
static const uint16_t FEC_CRATE_OFFSET
Log< level::Warning, false > LogWarning

◆ buildFecCablingFromFedConnections()

void SiStripFedCablingBuilderFromDb::buildFecCablingFromFedConnections ( SiStripConfigDb * const  db,
SiStripFecCabling fec_cabling 
)
static

Builds the SiStripFecCabling conditions object using information found within the "module.xml" and "dcuinfo.xml" files. "Dummy" values are provided when necessary.

Populates the SiStripFecCabling conditions object that is available via the EventSetup interface. The object contains the full FedChannel-Dcu-DetId mapping information.

The map is built using information cached by the SiStripConfigDb object, comprising: 1) the FED channel connections, as found in the "module.xml" file or database; 2) and Dcu-DetId mapping, as found in the "dcuinfo.xml" file or DCU-DetId static table. If any information is missing, the method provides "dummy" values.

Methodology:

1) The FEC cabling object is built using FED channel connection objects.

2) If the DcuId for a module is null (as defined within the connection description), a "dummy" DCU id is provided, based on the control key.

3) The cached Dcu-DetId map is queried for a matching DcuId. If found, the DetId and ApvPairs are updated. The number of APV pairs is checked.

4) If the DCU is not found in the cached map, a "random" DetId is assigned (using the remaining "unassigned" DetIds within the cached map). The DetId is only assigned if the number of APV pairs is consistent with the entry in the cached map.

5) If no appropriate match is found, the DetId is assigned a "dummy" value using an incremented counter (starting from 0xFFFF).

6) All Dcu-DetId mappings are accumulated in a new map, and this modified map is returned by the method.

Definition at line 195 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripFecCabling::addDevices(), assignDcuAndDetIds(), getInfo::conn, dqmiodatasetharvest::db, sistrip::FEC_CRATE_OFFSET, sistrip::FEC_RING_OFFSET, sistrip::invalid_, LogTrace, sistrip::mlCabling_, and FastTimerService_cff::range.

Referenced by buildFecCabling().

196  {
197  edm::LogVerbatim(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
198  << " Building FEC cabling from FED connections descriptions...";
199 
200  // ---------- Some initialization ----------
201 
202  //fec_cabling.clear(); //@@ Need to add method to "clear" FecCabling?
203 
204  // ---------- Retrieve connection descriptions from database ----------
205 
206  SiStripConfigDb::FedConnectionsRange conns = db->getFedConnections();
207  if (conns.empty()) {
208  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
209  << " Unable to build FEC cabling!"
210  << " No entries in FedConnections vector!";
211  return;
212  }
213 
214  // ---------- Retrieve DCU-DetId vector from database ----------
215 
216  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
217  << " Retrieving DCU-DetId vector from database...";
218  SiStripConfigDb::DcuDetIdsRange range = db->getDcuDetIds();
219  const SiStripConfigDb::DcuDetIdsV dcu_detid_vector(range.begin(), range.end());
220  if (!dcu_detid_vector.empty()) {
221  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
222  << " Found " << dcu_detid_vector.size()
223  << " entries in DCU-DetId vector retrieved from database!";
224  } else {
225  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
226  << " No entries in DCU-DetId vector retrieved from database!";
227  }
228 
229  // ---------- Populate FEC cabling object with retrieved info ----------
230 
231  SiStripConfigDb::FedConnectionsV::const_iterator ifed = conns.begin();
232  SiStripConfigDb::FedConnectionsV::const_iterator jfed = conns.end();
233  for (; ifed != jfed; ++ifed) {
234  if (!(*ifed)) {
235  edm::LogWarning(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
236  << " NULL pointer to FedConnection!";
237  continue;
238  }
239 
240  //uint16_t fec_id = static_cast<uint16_t>( (*ifed)->getFecHardwareId() );
241  uint16_t fec_crate =
242  static_cast<uint16_t>((*ifed)->getFecCrateId() + sistrip::FEC_CRATE_OFFSET); //@@ temporary offset!
243  uint16_t fec_slot = static_cast<uint16_t>((*ifed)->getFecSlot());
244  uint16_t fec_ring =
245  static_cast<uint16_t>((*ifed)->getRingSlot() + sistrip::FEC_RING_OFFSET); //@@ temporary offset!
246  uint16_t ccu_addr = static_cast<uint16_t>((*ifed)->getCcuAddress());
247  uint16_t ccu_chan = static_cast<uint16_t>((*ifed)->getI2cChannel());
248  uint16_t apv0 = static_cast<uint16_t>((*ifed)->getApvAddress());
249  uint16_t apv1 = apv0 + 1; //@@ needs implementing!
250  uint32_t dcu_id = static_cast<uint32_t>((*ifed)->getDcuHardId());
251  uint32_t det_id = 0; //@@ static_cast<uint32_t>( (*ifed)->getDetId() );
252  uint16_t npairs = 0; //@@ static_cast<uint16_t>( (*ifed)->getApvPairs() );
253  uint16_t fed_id = static_cast<uint16_t>((*ifed)->getFedId());
254  uint16_t fed_ch = static_cast<uint16_t>((*ifed)->getFedChannel());
255  uint16_t length = 0; //@@ static_cast<uint16_t>( (*ifed)->getFiberLength() );
256 
258  fec_crate, fec_slot, fec_ring, ccu_addr, ccu_chan, apv0, apv1, dcu_id, det_id, npairs, fed_id, fed_ch, length);
259 
260  uint16_t fed_crate = sistrip::invalid_;
261  uint16_t fed_slot = sistrip::invalid_;
262  fed_crate = static_cast<uint16_t>((*ifed)->getFedCrateId());
263  fed_slot = static_cast<uint16_t>((*ifed)->getFedSlot());
264  conn.fedCrate(fed_crate);
265  conn.fedSlot(fed_slot);
266 
267  fec_cabling.addDevices(conn);
268  }
269 
270  // ---------- Assign DCU and DetIds and then FED cabling ----------
271 
272  assignDcuAndDetIds(fec_cabling, dcu_detid_vector);
273 }
Log< level::Info, true > LogVerbatim
DcuDetIds::range DcuDetIdsRange
void addDevices(const FedChannelConnection &conn)
static const uint16_t FEC_RING_OFFSET
static void assignDcuAndDetIds(SiStripFecCabling &, const std::vector< std::pair< uint32_t, TkDcuInfo *> > &)
Log< level::Error, false > LogError
#define LogTrace(id)
FedConnections::range FedConnectionsRange
static const char mlCabling_[]
Class containning control, module, detector and connection information, at the level of a FED channel...
std::vector< DcuDetId > DcuDetIdsV
static const uint16_t invalid_
Definition: Constants.h:16
conn
Definition: getInfo.py:9
static const uint16_t FEC_CRATE_OFFSET
Log< level::Warning, false > LogWarning

◆ getFecCabling()

void SiStripFedCablingBuilderFromDb::getFecCabling ( const SiStripFedCabling in,
SiStripFecCabling out 
)
static

Utility method that takes a FED cabling object as input and returns (as an arg) the corresponding FEC cabling object.

Definition at line 1062 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripFecCabling::buildFecCabling().

1063  {
1064  fec_cabling.buildFecCabling(fed_cabling);
1065 }

◆ getFedCabling()

void SiStripFedCablingBuilderFromDb::getFedCabling ( const SiStripFecCabling in,
SiStripFedCabling out 
)
static

Utility method that takes a FEC cabling object as input and returns (as an arg) the corresponding FED cabling object.

Definition at line 1053 of file SiStripFedCablingBuilderFromDb.cc.

References SiStripFedCabling::buildFedCabling(), and SiStripFecCabling::connections().

Referenced by SiStripCondObjBuilderFromDb::buildCondObj(), CommissioningHistosUsingDb::configure(), and make().

1054  {
1055  vector<FedChannelConnection> conns;
1056  fec_cabling.connections(conns);
1057  fed_cabling.buildFedCabling(conns);
1058 }

◆ make()

SiStripFedCabling * SiStripFedCablingBuilderFromDb::make ( const SiStripFedCablingRcd )
overridevirtual

Builds FED cabling using info from configuration database.

Implements SiStripFedCablingESProducer.

Definition at line 47 of file SiStripFedCablingBuilderFromDb.cc.

References buildFecCabling(), SiStripConfigDb::databaseCache(), db_, TauDecayModes::dec, SiStripConfigDb::deviceFactory(), getFedCabling(), LogTrace, sistrip::mlCabling_, Utilities::operator, source_, and writeFedCablingToCondDb().

47  {
48  LogTrace(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
49  << " Constructing FED cabling...";
50 
51  // Create FED cabling object
52  SiStripFedCabling* fed_cabling = new SiStripFedCabling();
53 
54  // Build and retrieve SiStripConfigDb object using service
56 
57  // Check pointer
58  if (db_) {
59  edm::LogVerbatim(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
60  << " Pointer to SiStripConfigDb: 0x" << std::setw(8) << std::setfill('0') << std::hex
61  << db_ << std::dec;
62  } else {
63  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
64  << " NULL pointer to SiStripConfigDb returned by DB \"service\"!"
65  << " Cannot build FED cabling object!";
66  return fed_cabling;
67  }
68 
69  // Check if DB connection is made
70  if (db_->deviceFactory() || db_->databaseCache()) {
71  // Build FEC cabling object
72  SiStripFecCabling fec_cabling;
73  buildFecCabling(db_, fec_cabling, source_);
74 
75  // Populate FED cabling object
76  getFedCabling(fec_cabling, *fed_cabling);
77 
78  // Call virtual method that writes FED cabling object to conditions DB
79  writeFedCablingToCondDb(*fed_cabling);
80 
81  // Prints FED cabling
82  //stringstream ss;
83  //ss << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
84  //<< " Printing cabling map..." << endl
85  //<< *fed_cabling;
86  //LogTrace(mlCabling_) << ss.str();
87 
88  } else {
89  edm::LogError(mlCabling_) << "[SiStripFedCablingBuilderFromDb::" << __func__ << "]"
90  << " NULL pointers to DeviceFactory and DatabaseCache returned by SiStripConfigDb!"
91  << " Cannot build FED cabling object!";
92  }
93 
94  return fed_cabling;
95 }
Log< level::Info, true > LogVerbatim
DbClient *const databaseCache(std::string method_name="") const
Log< level::Error, false > LogError
#define LogTrace(id)
static const char mlCabling_[]
static void buildFecCabling(SiStripConfigDb *const, SiStripFecCabling &, const sistrip::CablingSource &)
virtual void writeFedCablingToCondDb(const SiStripFedCabling &)
static void getFedCabling(const SiStripFecCabling &in, SiStripFedCabling &out)
Contains cabling info at the device level, including DetId, APV pair numbers, hardware addresses...
DeviceFactory *const deviceFactory(std::string method_name="") const

◆ setIntervalFor()

void SiStripFedCablingBuilderFromDb::setIntervalFor ( const edm::eventsetup::EventSetupRecordKey key,
const edm::IOVSyncValue iov_sync,
edm::ValidityInterval iov_validity 
)
overrideprotectedvirtual

Implements edm::EventSetupRecordIntervalFinder.

Definition at line 1069 of file SiStripFedCablingBuilderFromDb.cc.

References edm::IOVSyncValue::beginOfTime(), edm::IOVSyncValue::endOfTime(), and infinity.

1071  {
1072  edm::ValidityInterval infinity(iov_sync.beginOfTime(), iov_sync.endOfTime());
1073  iov_validity = infinity;
1074 }
static const IOVSyncValue & endOfTime()
Definition: IOVSyncValue.cc:82
static const IOVSyncValue & beginOfTime()
Definition: IOVSyncValue.cc:88
const double infinity

◆ writeFedCablingToCondDb()

virtual void SiStripFedCablingBuilderFromDb::writeFedCablingToCondDb ( const SiStripFedCabling )
inlineprotectedvirtual

Virtual method that is called by makeFedCabling() to allow FED cabling to be written to the conds DB (local or otherwise).

Definition at line 78 of file SiStripFedCablingBuilderFromDb.h.

Referenced by make().

78 { ; }

Member Data Documentation

◆ db_

SiStripConfigDb* SiStripFedCablingBuilderFromDb::db_
protected

Access to the configuration DB interface class.

Definition at line 81 of file SiStripFedCablingBuilderFromDb.h.

Referenced by make().

◆ source_

sistrip::CablingSource SiStripFedCablingBuilderFromDb::source_
protected

Defines "source" (conns, devices, detids) of cabling info.

Definition at line 84 of file SiStripFedCablingBuilderFromDb.h.

Referenced by Config.Process::dumpConfig(), Config.Process::dumpPython(), make(), SiStripFedCablingBuilderFromDb(), and Config.Process::splitPython().