/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Log$ Revision 1.20 2007/04/04 10:33:36 jgrosseo 1) Storing of files to the Grid is now done _after_ your preprocessors succeeded. This is transparent, which means that you can still use the same functions (Store, StoreReferenceData) to store files to the Grid. However, the Shuttle first stores them locally and transfers them after the preprocessor finished. The return code of these two functions has changed from UInt_t to Bool_t which gives you the success of the storing. In case of an error with the Grid, the Shuttle will retry the storing later, the preprocessor does not need to be run again. 2) The meaning of the return code of the preprocessor has changed. 0 is now success and any other value means failure. This value is stored in the log and you can use it to keep details about the error condition. 3) New function StoreReferenceFile to _directly_ store a file (without opening it) to the reference storage. 4) The memory usage of the preprocessor is monitored. If it exceeds 2 GB it is terminated. 5) New function AliPreprocessor::ProcessDCS(). If you do not need to have DCS data in all cases, you can skip the processing by implemting this function and returning kFALSE under certain conditions. E.g. if there is a certain run type. If you always need DCS data (like before), you do not need to implement it. 6) The run type has been added to the monitoring page Revision 1.19 2007/02/28 10:41:56 acolla Run type field added in SHUTTLE framework. Run type is read from "run type" logbook and retrieved by AliPreprocessor::GetRunType() function. Added some ldap definition files. Revision 1.18 2007/01/23 19:20:03 acolla Removed old ldif files, added TOF, MCH ldif files. Added some options in AliShuttleConfig::Print. Added in Ali Shuttle: SetShuttleTempDir and SetShuttleLogDir Revision 1.17 2007/01/18 11:17:47 jgrosseo changing spaces to tabs ;-) Revision 1.16 2007/01/18 11:10:35 jgrosseo adding the possibility of defining DCS alias and data points with patterns first pattern introduced: [N..M] to add all names between the two digits, this works also recursively. Revision 1.15 2007/01/15 18:27:11 acolla implementation of sending mail to subdetector expert in case the preprocessor fails. shuttle.schema updated with expert's email entry Revision 1.13 2006/12/07 08:51:26 jgrosseo update (alberto): table, db names in ldap configuration added GRP preprocessor DCS data can also be retrieved by data point Revision 1.12 2006/11/16 16:16:48 jgrosseo introducing strict run ordering flag removed giving preprocessor name to preprocessor, they have to know their name themselves ;-) Revision 1.11 2006/11/06 14:23:04 jgrosseo major update (Alberto) o) reading of run parameters from the logbook o) online offline naming conversion o) standalone DCSclient package Revision 1.10 2006/10/20 15:22:59 jgrosseo o) Adding time out to the execution of the preprocessors: The Shuttle forks and the parent process monitors the child o) Merging Collect, CollectAll, CollectNew function o) Removing implementation of empty copy constructors (declaration still there!) Revision 1.9 2006/10/02 16:38:39 jgrosseo update (alberto): fixed memory leaks storing of objects that failed to be stored to the grid before interfacing of shuttle status table in daq system Revision 1.8 2006/08/15 10:50:00 jgrosseo effc++ corrections (alberto) Revision 1.7 2006/07/20 09:54:40 jgrosseo introducing status management: The processing per subdetector is divided into several steps, after each step the status is stored on disk. If the system crashes in any of the steps the Shuttle can keep track of the number of failures and skips further processing after a certain threshold is exceeded. These thresholds can be configured in LDAP. Revision 1.6 2006/07/19 10:09:55 jgrosseo new configuration, accesst to DAQ FES (Alberto) Revision 1.5 2006/07/10 13:01:41 jgrosseo enhanced storing of last sucessfully processed run (alberto) Revision 1.4 2006/06/12 09:11:16 jgrosseo coding conventions (Alberto) Revision 1.3 2006/06/06 14:26:40 jgrosseo o) removed files that were moved to STEER o) shuttle updated to follow the new interface (Alberto) Revision 1.7 2006/05/12 09:07:16 colla 12/05/06 New configuration complete Revision 1.2 2006/03/07 07:52:34 hristov New version (B.Yordanov) Revision 1.4 2005/11/19 14:20:31 byordano logbook config added to AliShuttleConfig Revision 1.3 2005/11/17 19:24:25 byordano TList changed to TObjArray in AliShuttleConfig Revision 1.2 2005/11/17 14:43:23 byordano import to local CVS Revision 1.1.1.1 2005/10/28 07:33:58 hristov Initial import as subdirectory in AliRoot Revision 1.1.1.1 2005/09/12 22:11:40 byordano SHUTTLE package Revision 1.3 2005/08/30 09:13:02 byordano some docs added */ // // This class keeps the AliShuttle configuration. // It reads the configuration for LDAP server. // For every child entry in basedn which has schema type 'shuttleConfig' // it creates a detector configuration. This configuration includes: // DCS server host and port and the set of aliases for which data from // will be retrieved (used by AliShuttle). // #include "AliShuttleConfig.h" #include "AliShuttleInterface.h" #include "AliLog.h" #include #include #include #include #include AliShuttleConfig::AliShuttleConfigHolder::AliShuttleConfigHolder(const TLDAPEntry* entry): fDetector(""), fDCSHost(""), fDCSPort(0), fDCSAliases(0), fDCSDataPoints(0), fDCSAliasesComp(0), fDCSDataPointsComp(0), fResponsibles(0), fIsValid(kFALSE), fSkipDCSQuery(kFALSE), fStrictRunOrder(kFALSE) { // constructor of the shuttle configuration holder TLDAPAttribute* anAttribute; fDCSAliases = new TObjArray(); fDCSAliases->SetOwner(1); fDCSDataPoints = new TObjArray(); fDCSDataPoints->SetOwner(1); fDCSAliasesComp = new TObjArray(); fDCSAliasesComp->SetOwner(1); fDCSDataPointsComp = new TObjArray(); fDCSDataPointsComp->SetOwner(1); fResponsibles = new TObjArray(); fResponsibles->SetOwner(1); anAttribute = entry->GetAttribute("det"); // MUST if (!anAttribute) { AliError(Form("Invalid configuration! No \"det\" attribute!")); return; } fDetector = anAttribute->GetValue(); anAttribute = entry->GetAttribute("StrictRunOrder"); // MAY if (!anAttribute) { AliWarning(Form("%s did not set StrictRunOrder flag - the default is FALSE", fDetector.Data())); } else { TString strictRunStr = anAttribute->GetValue(); if (!(strictRunStr == "0" || strictRunStr == "1")) { AliError("Invalid configuration! StrictRunOrder flag must be 0 or 1!"); return; } fStrictRunOrder = (Bool_t) strictRunStr.Atoi(); } anAttribute = entry->GetAttribute("responsible"); // MAY if (!anAttribute) { AliDebug(2, "Warning! No \"responsible\" attribute!"); } else { const char* aResponsible; while ((aResponsible = anAttribute->GetValue())) { fResponsibles->AddLast(new TObjString(aResponsible)); } } anAttribute = entry->GetAttribute("DCSHost"); // MAY if (!anAttribute) { AliDebug(2, Form("%s has not DCS host entry - Shuttle will skip DCS data query!", fDetector.Data())); fIsValid = kTRUE; fSkipDCSQuery = kTRUE; return; } fDCSHost = anAttribute->GetValue(); anAttribute = entry->GetAttribute("DCSPort"); // MAY if (!anAttribute) { AliError(Form("Invalid configuration! %s has DCS Host but no port number!", fDetector.Data())); return; } TString portStr = anAttribute->GetValue(); fDCSPort = portStr.Atoi(); anAttribute = entry->GetAttribute("DCSalias"); // MAY if (anAttribute) { const char* anAlias; while ((anAlias = anAttribute->GetValue())) { fDCSAliasesComp->AddLast(new TObjString(anAlias)); ExpandAndAdd(fDCSAliases, anAlias); } } anAttribute = entry->GetAttribute("DCSdatapoint"); // MAY if (anAttribute) { const char* aDataPoint; while ((aDataPoint = anAttribute->GetValue())) { fDCSDataPointsComp->AddLast(new TObjString(aDataPoint)); ExpandAndAdd(fDCSDataPoints, aDataPoint); } } fIsValid = kTRUE; } //______________________________________________________________________________________________ void AliShuttleConfig::AliShuttleConfigHolder::ExpandAndAdd(TObjArray* target, const char* entry) { // // adds to applying expanding of the name // [N..M] creates M-N+1 names with the corresponding digits // TString entryStr(entry); Int_t begin = entryStr.Index("["); Int_t end = entryStr.Index("]"); if (begin != -1 && end != -1 && end > begin) { TString before(entryStr(0, begin)); TString after(entryStr(end+1, entryStr.Length())); AliDebug(2, Form("Found [] pattern. Splitted input string %s %s", before.Data(), after.Data())); Int_t dotdot = entryStr.Index(".."); TString nStr(entryStr(begin+1, dotdot-begin-1)); TString mStr(entryStr(dotdot+2, end-dotdot-2)); AliDebug(2, Form("Found [N..M] pattern. %s %s", nStr.Data(), mStr.Data())); if (nStr.IsDigit() && mStr.IsDigit()) { Int_t n = nStr.Atoi(); Int_t m = mStr.Atoi(); Int_t nDigits = nStr.Length(); TString formatStr; formatStr.Form("%%s%%0%dd%%s", nDigits); AliDebug(2, Form("Format string is %s", formatStr.Data())); for (Int_t current = n; current<=m; ++current) { TString newEntry; newEntry.Form(formatStr.Data(), before.Data(), current, after.Data()); AliDebug(2, Form("Calling recursive with %s", newEntry.Data())); // and go recursive ExpandAndAdd(target, newEntry); } // return here because we processed the entries already recursively. return; } } AliDebug(2, Form("Adding name %s", entry)); target->AddLast(new TObjString(entry)); } //______________________________________________________________________________________________ AliShuttleConfig::AliShuttleConfigHolder::~AliShuttleConfigHolder() { // destructor of the shuttle configuration holder delete fDCSAliases; delete fDCSDataPoints; delete fResponsibles; } ClassImp(AliShuttleConfig) //______________________________________________________________________________________________ AliShuttleConfig::AliShuttleConfig(const char* host, Int_t port, const char* binddn, const char* password, const char* basedn): fIsValid(kFALSE), fConfigHost(host), fDAQlbHost(""), fDAQlbPort(), fDAQlbUser(""), fDAQlbPass(""), fDAQlbDB(""), fDAQlbTable(""), fShuttlelbTable(""), fRunTypelbTable(""), fMaxRetries(0), fPPTimeOut(0), fPPMaxMem(0), fDetectorMap(), fDetectorList(), fShuttleInstanceHost(""), fProcessedDetectors(), fProcessAll(kFALSE) { // // host: ldap server host // port: ldap server port // binddn: binddn used for ldap binding (simple bind is used!). // password: password for binddn // basedn: this is basedn whose childeren entries which have // (objectClass=shuttleConfig) will be used as detector configurations. // fDetectorMap.SetOwner(); fDetectorList.SetOwner(0); //fDetectorList and fDetectorMap share the same object! fProcessedDetectors.SetOwner(); TLDAPServer aServer(host, port, binddn, password, 3); if (!aServer.IsConnected()) { AliError(Form("Can't connect to ldap server %s:%d", host, port)); return; } // reads configuration for the shuttle running on this machine fShuttleInstanceHost = gSystem->HostName(); TString queryFilter = Form("(ShuttleHost=%s)", fShuttleInstanceHost.Data()); TLDAPResult* aResult = aServer.Search(basedn, LDAP_SCOPE_ONELEVEL, queryFilter.Data()); if (!aResult) { AliError(Form("Can't find configuration with base DN: %s", basedn)); return; } if (aResult->GetCount() == 0) { AliError(Form("No Shuttle instance for host = %s!", fShuttleInstanceHost.Data())); AliError(Form("All detectors will be processed.")); fProcessAll=kTRUE; } if (aResult->GetCount() > 1) { AliError(Form("More than one Shuttle instance for host %s!", fShuttleInstanceHost.Data())); delete aResult; return; } TLDAPEntry* anEntry = 0; TLDAPAttribute* anAttribute = 0; if(!fProcessAll){ anEntry = aResult->GetNext(); anAttribute = anEntry->GetAttribute("detectors"); const char *detName; while((detName = anAttribute->GetValue())){ TObjString *objDet= new TObjString(detName); fProcessedDetectors.Add(objDet); } } delete anEntry; delete aResult; // Detector configuration (DCS Archive DB settings) aResult = aServer.Search(basedn, LDAP_SCOPE_ONELEVEL, "(objectClass=AliShuttleDetector)"); if (!aResult) { AliError(Form("Can't find configuration with base DN: %s", basedn)); return; } while ((anEntry = aResult->GetNext())) { AliShuttleConfigHolder* aHolder = new AliShuttleConfigHolder(anEntry); delete anEntry; if (!aHolder->IsValid()) { AliError("Detector configuration error!"); delete aHolder; delete aResult; return; } TObjString* detStr = new TObjString(aHolder->GetDetector()); fDetectorMap.Add(detStr, aHolder); fDetectorList.AddLast(detStr); } delete aResult; // Global configuration (DAQ logbook) aResult = aServer.Search(basedn, LDAP_SCOPE_ONELEVEL, "(objectClass=AliShuttleGlobalConfig)"); if (!aResult) { AliError(Form("Can't find configuration with base DN: %s", basedn)); return; } if (aResult->GetCount() == 0) { AliError("Can't find DAQ logbook configuration!"); delete aResult; return; } if (aResult->GetCount() > 1) { AliError("More than one DAQ logbook configuration found!"); delete aResult; return; } anEntry = aResult->GetNext(); anAttribute = anEntry->GetAttribute("DAQLogbookHost"); if (!anAttribute) { AliError("Can't find DAQLogbookHost attribute!"); delete anEntry; delete aResult; return; } fDAQlbHost = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DAQLogbookPort"); // MAY if (anAttribute) { fDAQlbPort = ((TString) anAttribute->GetValue()).Atoi(); } else { fDAQlbPort = 3306; // mysql } anAttribute = anEntry->GetAttribute("DAQLogbookUser"); if (!anAttribute) { AliError("Can't find DAQLogbookUser attribute!"); delete aResult; delete anEntry; return; } fDAQlbUser = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DAQLogbookPassword"); if (!anAttribute) { AliError("Can't find DAQLogbookPassword attribute!"); delete aResult; delete anEntry; return; } fDAQlbPass = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DAQLogbookDB"); if (!anAttribute) { AliError("Can't find DAQLogbookDB attribute!"); delete aResult; delete anEntry; return; } fDAQlbDB = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DAQLogbookTable"); if (!anAttribute) { AliError("Can't find DAQLogbookTable attribute!"); delete aResult; delete anEntry; return; } fDAQlbTable = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("ShuttleLogbookTable"); if (!anAttribute) { AliError("Can't find ShuttleLogbookTable attribute!"); delete aResult; delete anEntry; return; } fShuttlelbTable = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("RunTypeLogbookTable"); if (!anAttribute) { AliError("Can't find RunTypeLogbookTable attribute!"); delete aResult; delete anEntry; return; } fRunTypelbTable = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("MaxRetries"); if (!anAttribute) { AliError("Can't find MaxRetries attribute!"); delete aResult; delete anEntry; return; } TString tmpStr = anAttribute->GetValue(); fMaxRetries = tmpStr.Atoi(); anAttribute = anEntry->GetAttribute("PPTimeOut"); if (!anAttribute) { AliError("Can't find PPTimeOut attribute!"); delete aResult; delete anEntry; return; } tmpStr = anAttribute->GetValue(); fPPTimeOut = tmpStr.Atoi(); anAttribute = anEntry->GetAttribute("PPMaxMem"); if (!anAttribute) { AliError("Can't find PPMaxMem attribute!"); delete aResult; delete anEntry; return; } tmpStr = anAttribute->GetValue(); fPPMaxMem = tmpStr.Atoi(); delete aResult; delete anEntry; // FXS configuration (FXS logbook and hosts) for(int iSys=0;iSys<3;iSys++){ queryFilter = Form("(system=%s)", AliShuttleInterface::GetSystemName(iSys)); aResult = aServer.Search(basedn, LDAP_SCOPE_ONELEVEL, queryFilter.Data()); if (!aResult) { AliError(Form("Can't find configuration for system: %s", AliShuttleInterface::GetSystemName(iSys))); return; } if (aResult->GetCount() != 1 ) { AliError("Error in FXS configuration!"); delete aResult; return; } anEntry = aResult->GetNext(); anAttribute = anEntry->GetAttribute("DBHost"); if (!anAttribute) { AliError(Form ("Can't find DBHost attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSdbHost[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DBPort"); // MAY if (anAttribute) { fFXSdbPort[iSys] = ((TString) anAttribute->GetValue()).Atoi(); } else { fFXSdbPort[iSys] = 3306; // mysql } anAttribute = anEntry->GetAttribute("DBUser"); if (!anAttribute) { AliError(Form ("Can't find DBUser attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSdbUser[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DBPassword"); if (!anAttribute) { AliError(Form ("Can't find DBPassword attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSdbPass[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DBName"); if (!anAttribute) { AliError(Form ("Can't find DBName attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSdbName[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("DBTable"); if (!anAttribute) { AliError(Form ("Can't find DBTable attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSdbTable[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("FSHost"); if (!anAttribute) { AliError(Form ("Can't find FSHost attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSHost[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("FSPort"); // MAY if (anAttribute) { fFXSPort[iSys] = ((TString) anAttribute->GetValue()).Atoi(); } else { fFXSPort[iSys] = 22; // scp port number } anAttribute = anEntry->GetAttribute("FSUser"); if (!anAttribute) { AliError(Form ("Can't find FSUser attribute for %s!!", AliShuttleInterface::GetSystemName(iSys))); delete aResult; delete anEntry; return; } fFXSUser[iSys] = anAttribute->GetValue(); anAttribute = anEntry->GetAttribute("FSPassword"); if (anAttribute) fFXSPass[iSys] = anAttribute->GetValue(); delete aResult; delete anEntry; } fIsValid = kTRUE; } //______________________________________________________________________________________________ AliShuttleConfig::~AliShuttleConfig() { // destructor fDetectorMap.DeleteAll(); fDetectorList.Clear(); fProcessedDetectors.Delete(); } //______________________________________________________________________________________________ const TObjArray* AliShuttleConfig::GetDetectors() const { // // returns collection of TObjString which contains the name // of every detector which is in the configuration. // return &fDetectorList; } //______________________________________________________________________________________________ Bool_t AliShuttleConfig::HasDetector(const char* detector) const { // // checks for paricular detector in the configuration. // return fDetectorMap.GetValue(detector) != NULL; } //______________________________________________________________________________________________ const char* AliShuttleConfig::GetDCSHost(const char* detector) const { // // returns DCS server host used by particular detector // AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return NULL; } return aHolder->GetDCSHost(); } //______________________________________________________________________________________________ Int_t AliShuttleConfig::GetDCSPort(const char* detector) const { // // returns DCS server port used by particular detector // AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return 0; } return aHolder->GetDCSPort(); } //______________________________________________________________________________________________ const TObjArray* AliShuttleConfig::GetDCSAliases(const char* detector) const { // // returns collection of TObjString which represents the set of aliases // which used for data retrieval for particular detector // AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return NULL; } return aHolder->GetDCSAliases(); } //______________________________________________________________________________________________ const TObjArray* AliShuttleConfig::GetDCSDataPoints(const char* detector) const { // // returns collection of TObjString which represents the set of aliases // which used for data retrieval for particular detector // AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return NULL; } return aHolder->GetDCSDataPoints(); } //______________________________________________________________________________________________ const TObjArray* AliShuttleConfig::GetResponsibles(const char* detector) const { // // returns collection of TObjString which represents the list of mail addresses // of the detector's responsible(s) // AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return NULL; } return aHolder->GetResponsibles(); } //______________________________________________________________________________________________ Bool_t AliShuttleConfig::HostProcessDetector(const char* detector) const { // return TRUE if detector is handled by host or if fProcessAll is TRUE if(fProcessAll) return kTRUE; TIter iter(&fProcessedDetectors); TObjString* detName; while((detName = (TObjString*) iter.Next())){ if(detName->String() == detector) return kTRUE; } return kFALSE; } //______________________________________________________________________________________________ Bool_t AliShuttleConfig::StrictRunOrder(const char* detector) const { // return TRUE if detector wants strict run ordering of stored data AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) fDetectorMap.GetValue(detector); if (!aHolder) { AliError(Form("There isn't configuration for detector: %s", detector)); return kTRUE; } return aHolder->StrictRunOrder(); } //______________________________________________________________________________________________ void AliShuttleConfig::Print(Option_t* option) const { // print configuration // options : "": print configuration for all detectors, aliases and DPs in compacted format // "uncompact": print configuration for all detectors, aliases and DPs in uncompacted format // "DET": print configuration for DET, aliases and DPs in compacted format // "DET, uncompact": print configuration for DET, aliases and DPs in uncompacted format TString result; result += '\n'; result += "####################################################\n"; result += Form(" Shuttle configuration from %s \n", fConfigHost.Data()); result += "####################################################\n"; result += Form("\nShuttle running on %s \n", fShuttleInstanceHost.Data()); if(fProcessAll) { result += Form("All detectors will be processed! \n"); } else { result += "Detectors processed by this host: "; TIter it(&fProcessedDetectors); TObjString* aDet; while ((aDet = (TObjString*) it.Next())) { result += Form("%s ", aDet->String().Data()); } result += "\n"; } result += Form("PP time out = %d - Max PP memsize = %d KB - Max total retries = %d\n\n", fPPTimeOut, fPPMaxMem, fMaxRetries); result += "------------------------------------------------------\n"; result += Form("Logbook Configuration \n\n \tHost: %s:%d; \tUser: %s; ", fDAQlbHost.Data(), fDAQlbPort, fDAQlbUser.Data()); // result += "Password: "; // result.Append('*', fDAQlbPass.Length()); result += Form("\tDB: %s; \tTables: %s, %s, %s", fDAQlbDB.Data(), fDAQlbTable.Data(), fShuttlelbTable.Data(), fRunTypelbTable.Data()); result += "\n\n"; result += "------------------------------------------------------\n"; result += "FXS configuration\n\n"; for(int iSys=0;iSys<3;iSys++){ result += Form("*** %s ***\n", AliShuttleInterface::GetSystemName(iSys)); result += Form("\tDB host: %s:%d; \tUser: %s; \tName: %s; \tTable: %s\n", fFXSdbHost[iSys].Data(), fFXSdbPort[iSys], fFXSdbUser[iSys].Data(), fFXSdbName[iSys].Data(), fFXSdbTable[iSys].Data()); // result += Form("DB Password:",fFXSdbPass[iSys].Data()); result += Form("\tFXS host: %s:%d; \tUser: %s\n\n", fFXSHost[iSys].Data(), fFXSPort[iSys], fFXSUser[iSys].Data()); // result += Form("FXS Password:",fFXSPass[iSys].Data()); } TString optStr(option); result += "------------------------------------------------------\n"; result += "Detector-specific configuration\n\n"; TIter iter(fDetectorMap.GetTable()); TPair* aPair; while ((aPair = (TPair*) iter.Next())) { AliShuttleConfigHolder* aHolder = (AliShuttleConfigHolder*) aPair->Value(); if (option != 0 && !optStr.Contains(aHolder->GetDetector()) && optStr.CompareTo("uncompact",TString::kIgnoreCase) != 0 ) continue; result += Form("*** %s *** \n", aHolder->GetDetector()); const TObjArray* responsibles = aHolder->GetResponsibles(); if (responsibles->GetEntries() != 0) { result += "\tDetector responsible(s): "; TIter it(responsibles); TObjString* aResponsible; while ((aResponsible = (TObjString*) it.Next())) { result += Form("%s ", aResponsible->String().Data()); } result += "\n"; } result += Form("\tStrict run ordering: %s \n", aHolder->StrictRunOrder() ? "YES" : "NO"); if(aHolder->SkipDCSQuery()) { result += "\n"; continue; } result += Form("\tAmanda server: %s:%d \n", aHolder->GetDCSHost(), aHolder->GetDCSPort()); const TObjArray* aliases = 0; if (optStr.Contains("uncompact",TString::kIgnoreCase)) { aliases = aHolder->GetDCSAliases(); } else { aliases = aHolder->GetCompactDCSAliases(); } if (aliases->GetEntries() != 0) { result += "\tDCS Aliases: "; TIter it(aliases); TObjString* anAlias; while ((anAlias = (TObjString*) it.Next())) { result += Form("%s ", anAlias->String().Data()); } result += "\n"; } const TObjArray* dataPoints = 0; if (optStr.Contains("uncompact",TString::kIgnoreCase)) { dataPoints = aHolder->GetDCSDataPoints(); } else { dataPoints = aHolder->GetCompactDCSDataPoints(); } if (dataPoints->GetEntries() != 0) { result += "\tDCS Data Points: "; TIter it(dataPoints); TObjString* aDataPoint; while ((aDataPoint = (TObjString*) it.Next())) { result += Form("%s ", aDataPoint->String().Data()); } result += "\n"; } result += "\n"; } if(!fIsValid) result += "\n\n********** !!!!! Configuration is INVALID !!!!! **********\n"; AliInfo(result); }