print '%s:' % n for i, j in v.items(): print ' %s = %s' % (i, j) DIRAC.exit(2) if len(args) < 2: usage() exitCode = 0 errorList = [] command = args[0] for prodID in args[1:]: result = diracProd.production(prodID, command, disableCheck=False) if result.has_key('Message'): errorList.append((prodID, result['Message'])) exitCode = 2 elif not result: errorList.append((prodID, 'Null result for getProduction() call')) exitCode = 2 else: exitCode = 0 for error in errorList: print "ERROR %s: %s" % error DIRAC.exit(exitCode)
if opt in ('m', 'manual'): manual = True if automatic and manual: print "ERROR: decide if you want automatic or manual ( not both )." DIRAC.exit(2) elif not (automatic or manual): print "ERROR: decide if you want automatic or manual." DIRAC.exit(2) elif automatic: type = 'automatic' elif manual: type = 'manual' for prodID in args: result = diracProd.production(prodID, type, disableCheck=False) if result.has_key('Message'): errorList.append((prodID, result['Message'])) exitCode = 2 elif not result: errorList.append((prodID, 'Null result for production() call')) exitCode = 2 else: exitCode = 0 for error in errorList: print "ERROR %s: %s" % error DIRAC.exit(exitCode)
class ProductionRequest(object): """ Production request class - objects are usually created starting from a production request """ def __init__(self, bkkClientIn=None, diracProdIn=None): """ c'tor Some variables are defined here. A production request is made of: stepsList, productionsTypes, and various parameters of those productions """ if bkkClientIn is None: self.bkkClient = BookkeepingClient() else: self.bkkClient = bkkClientIn if diracProdIn is None: self.diracProduction = DiracProduction() else: self.diracProduction = diracProdIn self.rpcProductionRequest = RPCClient( 'ProductionManagement/ProductionRequest') self.tc = TransformationClient() self.logger = gLogger.getSubLogger('ProductionRequest') self.opsH = Operations() # parameters of the request self.requestID = 0 self.parentRequestID = 0 self.appendName = '1' self.outConfigName = '' self.prodsToLaunch = [] # productions to launch self.stepsListDict = [] # list of dict of steps self.stepsInProds = [] # a list of lists # parameters of the input data self.processingPass = '' self.dataTakingConditions = '' self.eventType = '' self.bkFileType = [] self.dqFlag = '' self.startRun = 1 self.endRun = 2 self.runsList = '' self.configName = 'test' self.configVersion = 'certification' # parameters of the first production self.publishFlag = True self.testFlag = False self.derivedProduction = 0 self.previousProdID = 0 # optional prod from which to start self.fullListOfOutputFileTypes = [] # parameters that are the same for each productions self.prodGroup = '' # This ends up being 'ProcessingType', workflow parameter, and it is used for accounting self.visibility = '' # For BKQuery self.fractionToProcess = 0 self.minFilesToProcess = 0 self.modulesList = None # Usually: # ['GaudiApplication', 'AnalyseXMLSummary', # 'ErrorLogging', 'BookkeepingReport', 'StepAccounting' ] # parameters of each production (the length of each list has to be the same as the number of productions self.events = [] self.stepsList = [] self.extraOptions = {} self.prodsTypeList = [] self.bkQueries = [] # list of bk queries self.removeInputsFlags = [] self.priorities = [] self.cpus = [] self.inputs = [] # list of lists self.outputModes = [] self.targets = [] self.outputFileMasks = [] self.outputFileSteps = [] self.groupSizes = [] self.plugins = [] self.inputDataPolicies = [] self.previousProds = [ None ] # list of productions from which to take the inputs (the first is always None) self.multicore = [ ] # list of flags to override the multi core flags of the steps self.outputSEs = [] # a list of StorageElements self.specialOutputSEs = [] # a list of dictionaries - might be empty self.outputSEsPerFileType = [] # a list of dictionaries - filled later self.ancestorDepths = [] self.compDict = { 'HIGH': 'Compression-LZMA-4', 'LOW': 'Compression-ZLIB-1' } self.compressionLvl = [''] # List: one compression level each step self.appConfig = '$APPCONFIGOPTS/Persistency/' # Default location of the compression level configuration files # # These lists define the visibility of the output files produced by each step. For MC productions, the visibility # is tied to compression level. VIsible files are compressed at the highest level # self.outputVisFlag = [ ] # List of dictionary with default visibility flag of the output files per single step self.specialOutputVisFlag = [ ] # List of dictionaries with special visibility flag for given file type ############################################################################# def resolveSteps(self): """ Given a list of steps in strings, some of which might be missing, resolve it into a list of dictionary of steps (self.stepsListDict) """ outputVisFlag = dict( [k, v] for el in self.outputVisFlag for k, v in el.iteritems() ) # Transform the list of dictionaries in a dictionary specialOutputVisFlag = dict([k, v] for el in self.specialOutputVisFlag for k, v in el.iteritems()) count = 0 # Needed to add correctly the optionFiles to the list of dictonaries of steps for stepID in self.stepsList: stepDict = self.bkkClient.getAvailableSteps({'StepId': stepID}) if not stepDict['OK']: raise ValueError(stepDict['Message']) else: stepDict = stepDict['Value'] stepsListDictItem = {} s_in = self.bkkClient.getStepInputFiles(stepID) if not s_in['OK']: raise ValueError(s_in['Message']) stepsListDictItem['fileTypesIn'] = [ fileType[0].strip() for fileType in s_in['Value']['Records'] ] s_out = self.bkkClient.getStepOutputFiles(stepID) if not s_out['OK']: raise ValueError(s_out['Message']) fileTypesList = [ fileType[0].strip() for fileType in s_out['Value']['Records'] ] self.fullListOfOutputFileTypes = self.fullListOfOutputFileTypes + fileTypesList stepsListDictItem['fileTypesOut'] = fileTypesList for parameter, value in itertools.izip(stepDict['ParameterNames'], stepDict['Records'][0]): if parameter.lower() in ['conddb', 'dddb', 'dqtag'] and value: if value.lower() == 'frompreviousstep': value = self.stepsListDict[-1][parameter] if parameter == 'OptionFiles': # Modifying the OptionFiles (for setting the compression level) if 'MDF' not in stepsListDictItem[ 'fileTypesOut']: # certain MC produce MDF, which shouldn't be compressed # # If the prod manager sets a compression level for a particular step, either we append the option file # or we overwrite the existing one inherited with the step # if len(self.compressionLvl ) > count and self.compressionLvl[count] != '': persist = re.compile('Compression-[A-Z]{4}-[1-9]') # self.compressionLvl[count] = self.appConfig + self.compressionLvl[count] + '.py' self.compressionLvl[ count] = self.appConfig + self.compDict[ self.compressionLvl[count].upper()] + '.py' if not persist.search(value): if value == '': value = self.compressionLvl[count] else: value = ";".join( (value, self.compressionLvl[count])) else: value = persist.sub( persist.search( self.compressionLvl[count]).group(), value) # # If instead the prod manager doesn't declare a compression level, e.g. for intermediate steps, # we check if there is one in the options and in case we delete it. This leaves the default zip level # defined inside Gaudi # elif len( self.compressionLvl ) > count and self.compressionLvl[count] == '': persist = re.compile( r'\$\w+/Persistency/Compression-[A-Z]{4}-[1-9].py;?' ) if persist.search(value): value = persist.sub('', value) if parameter == 'SystemConfig' and value is not None and re.search( 'slc5', value): p = re.compile( r'\$\w+/Persistency/Compression-[A-Z]{4}-[1-9].py;?') if p.search(stepsListDictItem['OptionFiles']): stepsListDictItem['OptionFiles'] = p.sub( '', stepsListDictItem['OptionFiles']) stepsListDictItem[parameter] = value # Fixing what decided if stepsListDictItem['StepId'] in self.extraOptions: stepsListDictItem['ExtraOptions'] = self.extraOptions[ stepsListDictItem['StepId']] else: stepsListDictItem['ExtraOptions'] = '' stepsListDictItem['prodStepID'] = str(stepID) + str( stepsListDictItem['fileTypesIn']) if 'isMulticore' not in stepsListDictItem: stepsListDictItem['isMulticore'] = 'N' if 'SystemConfig' not in stepsListDictItem: stepsListDictItem['SystemConfig'] = '' if 'mcTCK' not in stepsListDictItem: stepsListDictItem['mcTCK'] = '' # Add visibility info during step resolution if 'visibilityFlag' not in stepsListDictItem: outputVisList = list({ 'Visible': outputVisFlag[str(count + 1)], 'FileType': ftype } for ftype in stepsListDictItem['fileTypesOut']) if str(count + 1) in specialOutputVisFlag: for it in outputVisList: if it['FileType'] in specialOutputVisFlag[str(count + 1)]: it['Visible'] = specialOutputVisFlag[str( count + 1)][it['FileType']] stepsListDictItem['visibilityFlag'] = outputVisList self.stepsListDict.append(stepsListDictItem) count += 1 ############################################################################# def buildAndLaunchRequest(self): """ uses _applyOptionalCorrections, _getProdsDescriptionDict, _buildProduction, and DiracProduction.launchProduction """ if not self.stepsListDict: self.resolveSteps() self._applyOptionalCorrections() self._determineOutputSEs() prodsDict = self._getProdsDescriptionDict() stepsListDict = list(self.stepsListDict) fromProd = self.previousProdID prodsLaunched = [] self.logger.debug(prodsDict) # now we build and launch each productions for prodIndex, prodDict in prodsDict.items(): if self.prodsToLaunch: if prodIndex not in self.prodsToLaunch: continue # build the list of steps in a production stepsInProd = [] for stepID in prodDict['stepsInProd-ProdName']: for step in stepsListDict: if step['prodStepID'] == stepID: stepsInProd.append( stepsListDict.pop(stepsListDict.index(step))) # NOT READY (alternative to previous 5 lines) # build the DAG of steps in a production # stepsInProdDAG = self._getStepsInProdDAG( prodDict, stepsListDict ) # Here, for today it is just convert to a list # TODO: fix this in order to properly use DAGs (now it's only sequential) # FIXME: using getIndexNodes we can't assure the order is respected # stepsInProd = stepsInProdDAG.getIndexNodes() if prodDict['previousProd'] is not None: fromProd = prodsLaunched[prodDict['previousProd'] - 1] self.previousProdID = fromProd prod = self._buildProduction( prodType=prodDict['productionType'], stepsInProd=stepsInProd, outputSE=prodDict['outputSE'], priority=prodDict['priority'], cpu=prodDict['cpu'], inputDataList=prodDict['input'], outputMode=prodDict['outputMode'], inputDataPolicy=prodDict['inputDataPolicy'], outputFileMask=prodDict['outputFileMask'], outputFileStep=prodDict['outputFileStep'], target=prodDict['target'], removeInputData=prodDict['removeInputsFlag'], groupSize=prodDict['groupSize'], bkQuery=prodDict['bkQuery'], plugin=prodDict['plugin'], previousProdID=fromProd, derivedProdID=prodDict['derivedProduction'], transformationFamily=prodDict['transformationFamily'], events=prodDict['events'], multicore=prodDict['multicore'], ancestorDepth=prodDict['ancestorDepth']) # if the production is a simulation production type, submit it to the automated testing if prodDict['productionType'] in self.opsH.getValue( 'Transformations/ExtendableTransfTypes', ['MCSimulation']): prodID = self._mcSpecialCase(prod, prodDict) else: res = self.diracProduction.launchProduction( prod=prod, publishFlag=self.publishFlag, testFlag=self.testFlag, requestID=self.requestID, tracking=prodDict['tracking']) if not res['OK']: raise RuntimeError(res['Message']) prodID = res['Value'] prodsLaunched.append(prodID) if self.publishFlag: self.logger.notice( "For request %d, submitted Production %d, of type %s, ID = %s" % (self.requestID, prodIndex, prodDict['productionType'], str(prodID))) return S_OK(prodsLaunched) ############################################################################# def _getStepsInProdDAG(self, prodDict, stepsListDict, stepsOrder='sequential'): """ Builds the DAG of steps in a production :params dict prodDict: dictionary representing one production :params list stepsListDict: list of steps (which are dictionaries) that should be in the production :returns: stepsInProd (DAG) """ stepsInProd = DAG() inserted = None for stepID in prodDict['stepsInProd-ProdName']: for step in stepsListDict: if step['prodStepID'] == stepID: ind = stepsListDict.index(step) step = stepsListDict.pop(ind) stepsInProd.addNode(step) if inserted and stepsOrder == 'sequential': stepsInProd.addEdge(inserted, step) inserted = step return stepsInProd def _mcSpecialCase(self, prod, prodDict): """ Treating the MC special case for putting MC productions in status "Testing" """ # save the original xml before it is edited for testing prod._lastParameters() # pylint: disable=protected-access # launchProduction adds extra parameters, as we 'hot swap' the xml, we # need to get these parameters for the un-edited version originalProcessingType = prod.prodGroup originalPriority = prod.priority prodXML = prod.LHCbJob.workflow.toXML() prodID = self._modifyAndLaunchMCXML(prod, prodDict) # load a production from the original xml to save the priority and processing type workflowToSave = fromXMLString(prodXML) prod.LHCbJob.workflow = workflowToSave prod.setParameter('ProcessingType', 'JDL', str(originalProcessingType), 'ProductionGroupOrType') prod.setParameter('Priority', 'JDL', str(originalPriority), 'Job Priority') # original xml to save descriptionToStore = prod.LHCbJob.workflow.toXML() # saving the original xml in the StoredJobDescription table. res = self.tc.addStoredJobDescription(prodID, descriptionToStore) if not res['OK']: self.logger.error("Error calling addStoredJobDescription", res['Message']) self.logger.info("Cleaning created production and exiting") self.diracProduction.production(res['Value'], 'cleaning') raise RuntimeError(res['Message']) return prodID def _modifyAndLaunchMCXML(self, prod, prodDict): """ Apply modifications to the workflow XML for MC testing case :param Production prod: Production object :param dict prodDict: dictionary with production info :returns: res['OK'] or res['ERROR'] """ # set the destination and number of events for testing destination = self.opsH.getValue( "Productions/MCTesting/MCTestingDestination", 'DIRAC.Test.ch') numberOfEvents = self.opsH.getValue( "Productions/MCTesting/numberOfEvents", '500') extendBy = self.opsH.getValue("Productions/MCTesting/extendBy", 20) prod.setJobParameters({'Destination': destination}) prod.LHCbJob.workflow.removeParameter('BannedSites') prod.setParameter('numberOfEvents', 'string', str(numberOfEvents), 'Number of events to test') # add '1' to the stepMask and add GAUSSHIST to the fileMask fileTypesOutLastStep = prod.LHCbJob.workflow.step_instances[ -2].findParameter('listoutput').getValue()[0]['outputDataType'] newFileMask = ['GAUSSHIST'] + [ ftOut.upper() for ftOut in fileTypesOutLastStep.split(';') ] stepMaskParameter = prod.LHCbJob.workflow.findParameter( 'outputDataStep') if stepMaskParameter: stepMask = stepMaskParameter.getValue().replace(' ', '').split(';') newOutputFileStep = ';'.join( sorted(list(set(['1']).union(set(stepMask))))) else: newOutputFileStep = '1' prod.setFileMask(newFileMask, newOutputFileStep) # find the file types out already built, append GAUSSHIST and set the new listoutput fileTypesOut = prod.LHCbJob.workflow.step_instances[0].findParameter( 'listoutput').getValue()[0]['outputDataType'] fileTypesOut = fileTypesOut.split(', ') fileTypesOut.append('GAUSSHIST') outputFilesList = prod._constructOutputFilesList(fileTypesOut) # pylint: disable=protected-access prod.LHCbJob.workflow.step_instances[0].setValue( 'listoutput', outputFilesList) # increase the priority to 10 prod.priority = 10 # launch the test production res = self.diracProduction.launchProduction( prod=prod, publishFlag=self.publishFlag, testFlag=self.testFlag, requestID=self.requestID, extend=extendBy, tracking=prodDict['tracking'], MCsimflag=True) if not res['OK']: self.logger.error("Error launching production", res['Message']) raise RuntimeError(res['Message']) return res['Value'] def _determineOutputSEs(self): """ Fill outputSEsPerFileType based on outputSEs, fullListOfOutputFileTypes and specialOutputSEs """ for outputSE, specialOutputSEs in itertools.izip( self.outputSEs, self.specialOutputSEs): outputSEDict = {} if not self.fullListOfOutputFileTypes: raise ValueError("No steps defined") outputSEDict = dict([(fType, outputSE) for fType in self.fullListOfOutputFileTypes]) if specialOutputSEs: outputSEDict.update(specialOutputSEs) self.outputSEsPerFileType.append(outputSEDict) def _applyOptionalCorrections(self): """ if needed, calls _splitIntoProductionSteps. It also applies other changes """ if len(self.bkQueries) != len(self.prodsTypeList): self.bkQueries += ['fromPreviousProd'] * (len(self.prodsTypeList) - len(self.bkQueries)) if len(self.previousProds) != len(self.prodsTypeList): self.previousProds += xrange(1, len(self.prodsTypeList)) if len(self.events) != len(self.prodsTypeList): self.events += ['-1' ] * (len(self.prodsTypeList) - len(self.events)) if not self.removeInputsFlags: removeInputsFlags = [] for prodType in self.prodsTypeList: if prodType.lower() == 'merge': removeInputsFlags.append(True) else: removeInputsFlags.append(False) self.removeInputsFlags = removeInputsFlags if not self.outputFileMasks: self.outputFileMasks = [''] * len(self.prodsTypeList) if not self.outputFileSteps: self.outputFileSteps = [''] * len(self.prodsTypeList) if not self.inputs: self.inputs = [[]] * len(self.prodsTypeList) if not self.outputModes: self.outputModes = ['Any'] * len(self.prodsTypeList) if not self.targets: self.targets = [''] * len(self.prodsTypeList) if not self.inputDataPolicies: self.inputDataPolicies = ['download'] * len(self.prodsTypeList) if not self.multicore: self.multicore = ['True'] * len(self.prodsTypeList) if not self.specialOutputSEs: self.specialOutputSEs = [{}] * len(self.prodsTypeList) if not self.ancestorDepths: self.ancestorDepths = [0] * len(self.prodsTypeList) # Checking if we need to split the merging step into many productions if 'merge' in [pt.lower() for pt in self.prodsTypeList]: i = 0 indexes = [] for pt in self.prodsTypeList: if pt.lower() == 'merge': indexes.append(i) i += 1 for index in indexes: # In this case and only in this case I have to split the merging in many productions plugin = self.plugins[index] outputSE = self.outputSEs[index] specialOutputSE = self.specialOutputSEs[index] priority = self.priorities[index] cpu = self.cpus[index] bkQuery = self.bkQueries[index] groupSize = self.groupSizes[index] preProd = self.previousProds[index] removeInputsFlag = self.removeInputsFlags[index] outputFileMask = self.outputFileMasks[index] outputFileStep = self.outputFileSteps[index] inputs = self.inputs[index] idp = self.inputDataPolicies[index] stepID = self.stepsList[index] events = self.events[index] targets = self.targets[index] multicore = self.multicore[index] outputMode = self.outputModes[index] ancestorDepth = self.ancestorDepths[index] if plugin.lower( ) != 'byrunfiletypesizewithflush' and 'rootmerging' not in plugin.lower( ): stepToSplit = self.stepsListDict[index] numberOfProdsToInsert = len(stepToSplit['fileTypesOut']) self.prodsTypeList.remove('Merge') self.plugins.pop(index) self.outputSEs.pop(index) self.specialOutputSEs.pop(index) self.priorities.pop(index) self.cpus.pop(index) self.bkQueries.pop(index) self.previousProds.pop(index) self.groupSizes.pop(index) self.removeInputsFlags.pop(index) self.outputFileMasks.pop(index) self.outputFileSteps.pop(index) self.inputs.pop(index) self.inputDataPolicies.pop(index) self.stepsList.pop(index) self.events.pop(index) self.targets.pop(index) self.multicore.pop(index) self.outputModes.pop(index) self.ancestorDepths.pop(index) newSteps = _splitIntoProductionSteps(stepToSplit) newSteps.reverse() self.stepsListDict.remove(stepToSplit) last = self.stepsInProds.pop(index)[0] for x in xrange(numberOfProdsToInsert): self.prodsTypeList.insert(index, 'Merge') self.plugins.insert(index, plugin) self.outputSEs.insert(index, outputSE) self.specialOutputSEs.insert(index, specialOutputSE) self.priorities.insert(index, priority) self.cpus.insert(index, cpu) self.bkQueries.insert(index, bkQuery) self.groupSizes.insert(index, groupSize) self.removeInputsFlags.insert(index, removeInputsFlag) self.outputFileMasks.insert(index, outputFileMask) self.outputFileSteps.insert(index, outputFileStep) self.inputs.insert(index, inputs) self.inputDataPolicies.insert(index, idp) self.stepsList.insert(index, stepID) self.previousProds.insert(index, preProd) self.stepsListDict.insert(index, newSteps[x]) self.stepsInProds.insert(index + x, [last + x]) self.events.insert(index, events) self.targets.insert(index, targets) self.multicore.insert(index, multicore) self.outputModes.insert(index, outputMode) self.ancestorDepths.insert(index, ancestorDepth) correctedStepsInProds = [] toInsert = self.stepsInProds[0][0] lengths = [len(x) for x in self.stepsInProds] for length in lengths: li = [toInsert + x for x in xrange(length)] toInsert += length correctedStepsInProds.append(li) self.stepsInProds = correctedStepsInProds ############################################################################# def _getProdsDescriptionDict(self): """ Returns a dictionary representing the description of the request (of all the productions in it) """ prodsDict = {} prodNumber = 1 for prodType, stepsInProd, bkQuery, removeInputsFlag, outputSE, priority, \ cpu, inputD, outputMode, outFileMask, outFileStep, target, groupSize, plugin, idp, \ previousProd, events, multicore, ancestorDepth in itertools.izip(self.prodsTypeList, self.stepsInProds, self.bkQueries, self.removeInputsFlags, self.outputSEsPerFileType, self.priorities, self.cpus, self.inputs, self.outputModes, self.outputFileMasks, self.outputFileSteps, self.targets, self.groupSizes, self.plugins, self.inputDataPolicies, self.previousProds, self.events, self.multicore, self.ancestorDepths): if not self.parentRequestID and self.requestID: transformationFamily = self.requestID else: transformationFamily = self.parentRequestID stepsInProdProdNameList = [ str(self.stepsList[index - 1]) + str(self.stepsListDict[index - 1]['fileTypesIn']) for index in stepsInProd ] prodsDict[prodNumber] = { 'productionType': prodType, 'stepsInProd': [self.stepsList[index - 1] for index in stepsInProd], 'bkQuery': bkQuery, 'removeInputsFlag': removeInputsFlag, 'tracking': 0, 'outputSE': outputSE, 'priority': priority, 'cpu': cpu, 'input': inputD, 'outputMode': outputMode, 'outputFileMask': outFileMask, 'outputFileStep': outFileStep, 'target': target, 'groupSize': groupSize, 'plugin': plugin, 'inputDataPolicy': idp, 'derivedProduction': 0, 'transformationFamily': transformationFamily, 'previousProd': previousProd, 'stepsInProd-ProdName': stepsInProdProdNameList, 'events': events, 'multicore': multicore, 'ancestorDepth': ancestorDepth } prodNumber += 1 # tracking the last production(s) prodsDict[prodNumber - 1]['tracking'] = 1 typeOfLastProd = prodsDict[prodNumber - 1]['productionType'] index = 2 try: while prodsDict[prodNumber - index]['productionType'] == typeOfLastProd: prodsDict[prodNumber - index]['tracking'] = 1 index += 1 except KeyError: pass # production derivation, if necessary if self.derivedProduction: prodsDict[1]['derivedProduction'] = self.derivedProduction return prodsDict ############################################################################# def _buildProduction(self, prodType, stepsInProd, outputSE, priority, cpu, inputDataList=None, outputMode='Any', inputDataPolicy='download', outputFileMask='', outputFileStep='', target='', removeInputData=False, groupSize=1, bkQuery=None, plugin='', previousProdID=0, derivedProdID=0, transformationFamily=0, events=-1, multicore='True', ancestorDepth=0): """ Wrapper around Production API to build a production, given the needed parameters Args: prodType (str): production type (e.g. 'DataStripping') stepsInProd (list): list of steps in the production outputSE (dict): dictionary that holds relation between file type and output SE priority (int): production priority cpu (int): CPU time, in HS06s for jobs in this production Returns: prod: a Production object """ prod = Production() # non optional parameters prod.LHCbJob.setType(prodType) try: fTypeIn = [ft.upper() for ft in stepsInProd[0]['fileTypesIn']] except IndexError: fTypeIn = [] prod.LHCbJob.workflow.setName( 'Request_%d_%s_%s_EventType_%s_%s_%s' % (self.requestID, prodType, self.prodGroup, self.eventType, ''.join( [x.split('.')[0] for x in fTypeIn]), self.appendName)) prod.setBKParameters(configName=self.outConfigName, configVersion=self.configVersion, groupDescriptionOrStepsList=stepsInProd, conditions=self.dataTakingConditions) prod.setParameter('eventType', 'string', self.eventType, 'Event Type of the production') prod.setParameter('numberOfEvents', 'string', str(events), 'Number of events requested') prod.setParameter('multicore', 'string', multicore, 'Flag for enabling gaudi parallel') prod.prodGroup = self.prodGroup prod.priority = priority prod.LHCbJob.workflow.setDescrShort('prodDescription') prod.LHCbJob.workflow.setDescription('prodDescription') prod.LHCbJob.setCPUTime(cpu) prod.plugin = plugin # optional parameters prod.jobFileGroupSize = groupSize if inputDataPolicy: prod.LHCbJob.setInputDataPolicy(inputDataPolicy) prod.setOutputMode(outputMode) if outputFileMask: outputFileMask = [ m.lower() for m in outputFileMask.replace(' ', '').split(',') ] if outputFileStep: if isinstance(outputFileStep, str): outputFileStep = [ m.lower() for m in outputFileStep.replace(' ', '').split(',') ] prod.setFileMask(outputFileMask, outputFileStep) if target: if target == 'Tier2': prod.banTier1s() elif 'BAN' in target: sitesToBan = target.split(':') if len(sitesToBan) > 1: prod.banSites(sitesToBan[1:]) elif target != 'ALL': prod.LHCbJob.setDestination(target) prod.LHCbJob.setInputData(inputDataList) if ancestorDepth: prod.LHCbJob.setAncestorDepth(ancestorDepth) if derivedProdID: prod.ancestorProduction = derivedProdID if transformationFamily: prod.transformationFamily = transformationFamily if self.fractionToProcess: prod.setParameter('FractionToProcess', 'string', str(self.fractionToProcess), 'Fraction to process') if self.minFilesToProcess: prod.setParameter('MinFilesToProcess', 'string', str(self.minFilesToProcess), 'Min N of Files to process') if self.processingPass: prod.setParameter('processingPass', 'string', self.processingPass, 'Processing pass of input for the request') # Adding optional input BK query if bkQuery: if bkQuery.lower() == 'full': prod.inputBKSelection = self._getBKKQuery() elif bkQuery.lower() == 'frompreviousprod': prod.inputBKSelection = self._getBKKQuery( 'frompreviousprod', fTypeIn, previousProdID) self.logger.verbose('Launching with BK selection %s' % prod.inputBKSelection) prod = self._addStepsToProd(prod, stepsInProd, removeInputData=removeInputData) for ft, oSE in outputSE.items(): prod.outputSEs.setdefault(ft, oSE) prod.LHCbJob.setDIRACPlatform() return prod ############################################################################# def _addStepsToProd(self, prod, stepsInProd, stepsSequence='sequential', removeInputData=False): """ Given a Production object, add requested steps (application and finalization) Args: prod (Production): the Production object to which the steps are added stepsInProd (DAG): DAG of steps in a production stepsSequence (str or dict): applications steps sequence removeInputData (bool): flag that indicates if the input data should be removed (for the finalization step) Returns: prod with steps added """ # Adding the application steps firstStep = stepsInProd.pop(0) stepName = prod.addApplicationStep(stepDict=firstStep, modulesList=self.modulesList) prod.gaudiSteps.append(stepName) for step in stepsInProd: stepName = prod.addApplicationStep(stepDict=step, inputData='previousStep', modulesList=self.modulesList) prod.gaudiSteps.append(stepName) # Adding the finalization step if removeInputData: prod.addFinalizationStep([ 'UploadOutputData', 'RemoveInputData', 'UploadLogFile', 'UploadMC', 'FailoverRequest' ]) else: prod.addFinalizationStep() return prod def _getBKKQuery(self, mode='full', fileType=None, previousProdID=0): """ simply creates the bkk query dictionary """ if fileType is None: fileType = [] if mode.lower() == 'full': bkQuery = { 'FileType': ';;;'.join(self.bkFileType), 'EventType': str(self.eventType), 'ConfigName': self.configName, 'ConfigVersion': self.configVersion } if self.dataTakingConditions: bkQuery['DataTakingConditions'] = self.dataTakingConditions if self.processingPass: bkQuery['ProcessingPass'] = self.processingPass if self.dqFlag: bkQuery['DataQualityFlag'] = self.dqFlag.replace( ',', ';;;').replace(' ', '') if self.startRun and self.runsList or self.endRun and self.runsList: raise ValueError( "Please don't mix runs list with start/end run") if self.endRun and self.startRun: if self.endRun < self.startRun: gLogger.error( "Your end run '%d' should be more than your start run '%d'!" % (self.endRun, self.startRun)) raise ValueError("Error setting start or end run") if self.startRun: bkQuery['StartRun'] = self.startRun if self.endRun: bkQuery['EndRun'] = self.endRun if self.runsList: bkQuery['RunNumbers'] = self.runsList.replace(',', ';;;').replace( ' ', '') if self.visibility: bkQuery['Visible'] = self.visibility elif mode.lower() == 'frompreviousprod': bkQuery = { 'FileType': ';;;'.join(fileType).replace(' ', ''), 'ProductionID': int(previousProdID) } if self.eventType: bkQuery['EventType'] = str(self.eventType) if self.dqFlag: bkQuery['DataQualityFlag'] = self.dqFlag.replace( ',', ';;;').replace(' ', '') return bkQuery ################################################################################ # properties def set_stepsList(self, value): listInt = [] i = 0 while True: try: listInt.append(int(value[i])) i = i + 1 except ValueError: break except IndexError: break self._stepsList = listInt def get_stepsList(self): return self._stepsList stepsList = property(get_stepsList, set_stepsList) def set_startRun(self, value): if isinstance(value, str): value = int(value) if value < 0: raise ValueError("startRun can not be negative") self._startRun = value def get_startRun(self): return self._startRun startRun = property(get_startRun, set_startRun) def set_endRun(self, value): if isinstance(value, str): value = int(value) if value < 0: raise ValueError("endRun can not be negative") self._endRun = value def get_endRun(self): return self._endRun endRun = property(get_endRun, set_endRun) def set_requestID(self, value): if value == '': value = 0 if isinstance(value, str): value = int(value) if value < 0: raise ValueError("requestID can not be negative") self._requestID = value def get_requestID(self): return self._requestID requestID = property(get_requestID, set_requestID) def set_parentRequestID(self, value): if value == '': value = 0 if isinstance(value, str): value = int(value) if value < 0: raise ValueError("parentRequestID can not be negative") self._parentRequestID = value def get_parentRequestID(self): return self._parentRequestID parentRequestID = property(get_parentRequestID, set_parentRequestID) def set_bkFileType(self, value): if isinstance(value, str): value = value.replace(' ', '').split(',') self._bkFileType = value def get_bkFileType(self): return self._bkFileType bkFileType = property(get_bkFileType, set_bkFileType)