def setUp(self): """ _setUp_ """ self.testInit = TestInitCouchApp(__file__) self.testInit.setLogging() self.testInit.setDatabaseConnection() self.testInit.setupCouch("wmbshelper_t/jobs", "JobDump") self.testInit.setupCouch("wmbshelper_t/fwjrs", "FWJRDump") self.testInit.setupCouch("config_test", "GroupUser", "ConfigCache") os.environ["COUCHDB"] = "wmbshelper_t" self.testInit.setSchema(customModules=[ "WMCore.WMBS", "WMComponent.DBS3Buffer", "WMCore.BossAir", "WMCore.ResourceControl" ], useDefault=False) self.workDir = self.testInit.generateWorkDir() self.wmspec = self.createWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = MockDBSReader(self.inputDataset.dbsurl) self.daoFactory = DAOFactory(package="WMCore.WMBS", logger=threading.currentThread().logger, dbinterface=threading.currentThread().dbi) return
def setUp(self): """ _setUp_ """ self.testInit = TestInitCouchApp(__file__) self.testInit.setLogging() self.testInit.setDatabaseConnection() self.testInit.setupCouch("wmbshelper_t/jobs", "JobDump") self.testInit.setupCouch("wmbshelper_t/fwjrs", "FWJRDump") os.environ["COUCHDB"] = "wmbshelper_t" self.testInit.setSchema(customModules = ["WMCore.WMBS", "WMComponent.DBSBuffer.Database", "WMCore.BossAir", "WMCore.ResourceControl"], useDefault = False) self.workDir = self.testInit.generateWorkDir() self.wmspec = self.createWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = MockDBSReader(self.inputDataset.dbsurl) self.daoFactory = DAOFactory(package = "WMCore.WMBS", logger = threading.currentThread().logger, dbinterface = threading.currentThread().dbi) return
class WMBSHelperTest(unittest.TestCase): def setUp(self): """ _setUp_ """ self.testInit = TestInitCouchApp(__file__) self.testInit.setLogging() self.testInit.setDatabaseConnection() self.testInit.setupCouch("wmbshelper_t/jobs", "JobDump") self.testInit.setupCouch("wmbshelper_t/fwjrs", "FWJRDump") self.testInit.setupCouch("config_test", "GroupUser", "ConfigCache") os.environ["COUCHDB"] = "wmbshelper_t" self.testInit.setSchema(customModules=[ "WMCore.WMBS", "WMComponent.DBS3Buffer", "WMCore.BossAir", "WMCore.ResourceControl" ], useDefault=False) self.workDir = self.testInit.generateWorkDir() self.wmspec = self.createWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = MockDBSReader(self.inputDataset.dbsurl) self.daoFactory = DAOFactory(package="WMCore.WMBS", logger=threading.currentThread().logger, dbinterface=threading.currentThread().dbi) return def tearDown(self): """ _tearDown_ Clear out the database. """ self.testInit.clearDatabase() self.testInit.tearDownCouch() self.testInit.delWorkDir() return def setupForKillTest(self, baAPI=None): """ _setupForKillTest_ Inject a workflow into WMBS that has a processing task, a merge task and a cleanup task. Inject files into the various tasks at various processing states (acquired, complete, available...). Also create jobs for each subscription in various states. """ myThread = threading.currentThread() daoFactory = DAOFactory(package="WMCore.WMBS", logger=myThread.logger, dbinterface=myThread.dbi) locationAction = daoFactory(classname="Locations.New") changeStateAction = daoFactory(classname="Jobs.ChangeState") resourceControl = ResourceControl() resourceControl.insertSite(siteName='site1', seName='goodse.cern.ch', ceName='site1', plugin="TestPlugin") resourceControl.insertThreshold(siteName = 'site1', taskType = 'Processing', \ maxSlots = 10000, pendingSlots = 10000) userDN = 'someDN' userAction = daoFactory(classname="Users.New") userAction.execute(dn=userDN, group_name='DEFAULT', role_name='DEFAULT') inputFileset = Fileset("input") inputFileset.create() inputFileA = File("lfnA", locations="goodse.cern.ch") inputFileB = File("lfnB", locations="goodse.cern.ch") inputFileC = File("lfnC", locations="goodse.cern.ch") inputFileA.create() inputFileB.create() inputFileC.create() inputFileset.addFile(inputFileA) inputFileset.addFile(inputFileB) inputFileset.addFile(inputFileC) inputFileset.commit() unmergedOutputFileset = Fileset("unmerged") unmergedOutputFileset.create() unmergedFileA = File("ulfnA", locations="goodse.cern.ch") unmergedFileB = File("ulfnB", locations="goodse.cern.ch") unmergedFileC = File("ulfnC", locations="goodse.cern.ch") unmergedFileA.create() unmergedFileB.create() unmergedFileC.create() unmergedOutputFileset.addFile(unmergedFileA) unmergedOutputFileset.addFile(unmergedFileB) unmergedOutputFileset.addFile(unmergedFileC) unmergedOutputFileset.commit() mainProcWorkflow = Workflow(spec="spec1", owner="Steve", name="Main", task="Proc") mainProcWorkflow.create() mainProcMergeWorkflow = Workflow(spec="spec1", owner="Steve", name="Main", task="ProcMerge") mainProcMergeWorkflow.create() mainCleanupWorkflow = Workflow(spec="spec1", owner="Steve", name="Main", task="Cleanup") mainCleanupWorkflow.create() self.mainProcSub = Subscription(fileset=inputFileset, workflow=mainProcWorkflow, type="Processing") self.mainProcSub.create() self.mainProcSub.acquireFiles(inputFileA) self.mainProcSub.completeFiles(inputFileB) procJobGroup = JobGroup(subscription=self.mainProcSub) procJobGroup.create() self.procJobA = Job(name="ProcJobA") self.procJobA["state"] = "new" self.procJobA["location"] = "site1" self.procJobB = Job(name="ProcJobB") self.procJobB["state"] = "executing" self.procJobB["location"] = "site1" self.procJobC = Job(name="ProcJobC") self.procJobC["state"] = "complete" self.procJobC["location"] = "site1" self.procJobA.create(procJobGroup) self.procJobB.create(procJobGroup) self.procJobC.create(procJobGroup) self.mainMergeSub = Subscription(fileset=unmergedOutputFileset, workflow=mainProcMergeWorkflow, type="Merge") self.mainMergeSub.create() self.mainMergeSub.acquireFiles(unmergedFileA) self.mainMergeSub.failFiles(unmergedFileB) mergeJobGroup = JobGroup(subscription=self.mainMergeSub) mergeJobGroup.create() self.mergeJobA = Job(name="MergeJobA") self.mergeJobA["state"] = "exhausted" self.mergeJobA["location"] = "site1" self.mergeJobB = Job(name="MergeJobB") self.mergeJobB["state"] = "cleanout" self.mergeJobB["location"] = "site1" self.mergeJobC = Job(name="MergeJobC") self.mergeJobC["state"] = "new" self.mergeJobC["location"] = "site1" self.mergeJobA.create(mergeJobGroup) self.mergeJobB.create(mergeJobGroup) self.mergeJobC.create(mergeJobGroup) self.mainCleanupSub = Subscription(fileset=unmergedOutputFileset, workflow=mainCleanupWorkflow, type="Cleanup") self.mainCleanupSub.create() self.mainCleanupSub.acquireFiles(unmergedFileA) self.mainCleanupSub.completeFiles(unmergedFileB) cleanupJobGroup = JobGroup(subscription=self.mainCleanupSub) cleanupJobGroup.create() self.cleanupJobA = Job(name="CleanupJobA") self.cleanupJobA["state"] = "new" self.cleanupJobA["location"] = "site1" self.cleanupJobB = Job(name="CleanupJobB") self.cleanupJobB["state"] = "executing" self.cleanupJobB["location"] = "site1" self.cleanupJobC = Job(name="CleanupJobC") self.cleanupJobC["state"] = "complete" self.cleanupJobC["location"] = "site1" self.cleanupJobA.create(cleanupJobGroup) self.cleanupJobB.create(cleanupJobGroup) self.cleanupJobC.create(cleanupJobGroup) jobList = [ self.procJobA, self.procJobB, self.procJobC, self.mergeJobA, self.mergeJobB, self.mergeJobC, self.cleanupJobA, self.cleanupJobB, self.cleanupJobC ] changeStateAction.execute(jobList) if baAPI: for job in jobList: job['plugin'] = 'TestPlugin' job['userdn'] = userDN job['usergroup'] = 'DEFAULT' job['userrole'] = 'DEFAULT' job['custom']['location'] = 'site1' baAPI.createNewJobs(wmbsJobs=jobList) # We'll create an unrelated workflow to verify that it isn't affected # by the killing code. bogusFileset = Fileset("dontkillme") bogusFileset.create() bogusFileA = File("bogus/lfnA", locations="goodse.cern.ch") bogusFileA.create() bogusFileset.addFile(bogusFileA) bogusFileset.commit() bogusWorkflow = Workflow(spec="spec2", owner="Steve", name="Bogus", task="Proc") bogusWorkflow.create() self.bogusSub = Subscription(fileset=bogusFileset, workflow=bogusWorkflow, type="Processing") self.bogusSub.create() self.bogusSub.acquireFiles(bogusFileA) return def verifyFileKillStatus(self): """ _verifyFileKillStatus_ Verify that all files were killed correctly. The status of files in Cleanup and LogCollect subscriptions isn't modified. Status of already completed and failed files is not modified. Also verify that the bogus subscription is untouched. """ failedFiles = self.mainProcSub.filesOfStatus("Failed") acquiredFiles = self.mainProcSub.filesOfStatus("Acquired") completedFiles = self.mainProcSub.filesOfStatus("Completed") availableFiles = self.mainProcSub.filesOfStatus("Available") bogusAcquiredFiles = self.bogusSub.filesOfStatus("Acquired") self.assertEqual(len(availableFiles), 0, \ "Error: There should be no available files.") self.assertEqual(len(acquiredFiles), 0, \ "Error: There should be no acquired files.") self.assertEqual(len(bogusAcquiredFiles), 1, \ "Error: There should be one acquired file.") self.assertEqual(len(completedFiles), 3, \ "Error: There should be only one completed file.") goldenLFNs = ["lfnA", "lfnB", "lfnC"] for completedFile in completedFiles: self.assertTrue(completedFile["lfn"] in goldenLFNs, \ "Error: Extra completed file.") goldenLFNs.remove(completedFile["lfn"]) self.assertEqual(len(failedFiles), 0, \ "Error: There should be no failed files.") self.assertEqual(len(goldenLFNs), 0, \ "Error: Missing LFN") failedFiles = self.mainMergeSub.filesOfStatus("Failed") acquiredFiles = self.mainMergeSub.filesOfStatus("Acquired") completedFiles = self.mainMergeSub.filesOfStatus("Completed") availableFiles = self.mainMergeSub.filesOfStatus("Available") self.assertEqual(len(acquiredFiles), 0, \ "Error: Merge subscription should have 0 acq files.") self.assertEqual(len(availableFiles), 0, \ "Error: Merge subscription should have 0 avail files.") self.assertEqual(len(failedFiles), 1, \ "Error: Merge subscription should have 1 failed files.") self.assertEqual( list(failedFiles)[0]["lfn"], "ulfnB", "Error: Wrong failed file.") self.assertEqual(len(completedFiles), 2, \ "Error: Merge subscription should have 2 compl files.") goldenLFNs = ["ulfnA", "ulfnC"] for completedFile in completedFiles: self.assertTrue(completedFile["lfn"] in goldenLFNs, \ "Error: Extra complete file.") goldenLFNs.remove(completedFile["lfn"]) self.assertEqual(len(goldenLFNs), 0, \ "Error: Missing LFN") failedFiles = self.mainCleanupSub.filesOfStatus("Failed") acquiredFiles = self.mainCleanupSub.filesOfStatus("Acquired") completedFiles = self.mainCleanupSub.filesOfStatus("Completed") availableFiles = self.mainCleanupSub.filesOfStatus("Available") self.assertEqual(len(failedFiles), 0, \ "Error: Cleanup subscription should have 0 fai files.") self.assertEqual(len(acquiredFiles), 1, \ "Error: There should be only one acquired file.") self.assertEqual(list(acquiredFiles)[0]["lfn"], "ulfnA", \ "Error: Wrong acquired LFN.") self.assertEqual(len(completedFiles), 1, \ "Error: There should be only one completed file.") self.assertEqual(list(completedFiles)[0]["lfn"], "ulfnB", \ "Error: Wrong completed LFN.") self.assertEqual(len(availableFiles), 1, \ "Error: There should be only one available file.") self.assertEqual(list(availableFiles)[0]["lfn"], "ulfnC", \ "Error: Wrong completed LFN.") return def verifyJobKillStatus(self): """ _verifyJobKillStatus_ Verify that jobs are killed correctly. Jobs belonging to Cleanup and LogCollect subscriptions are not killed. The status of jobs that have already finished running is not changed. """ self.procJobA.load() self.procJobB.load() self.procJobC.load() self.assertEqual(self.procJobA["state"], "killed", \ "Error: Proc job A should be killed.") self.assertEqual(self.procJobB["state"], "killed", \ "Error: Proc job B should be killed.") self.assertEqual(self.procJobC["state"], "complete", \ "Error: Proc job C should be complete.") self.mergeJobA.load() self.mergeJobB.load() self.mergeJobC.load() self.assertEqual(self.mergeJobA["state"], "exhausted", \ "Error: Merge job A should be exhausted.") self.assertEqual(self.mergeJobB["state"], "cleanout", \ "Error: Merge job B should be cleanout.") self.assertEqual(self.mergeJobC["state"], "killed", \ "Error: Merge job C should be killed.") self.cleanupJobA.load() self.cleanupJobB.load() self.cleanupJobC.load() self.assertEqual(self.cleanupJobA["state"], "new", \ "Error: Cleanup job A should be new.") self.assertEqual(self.cleanupJobB["state"], "executing", \ "Error: Cleanup job B should be executing.") self.assertEqual(self.cleanupJobC["state"], "complete", \ "Error: Cleanup job C should be complete.") return def createTestWMSpec(self): """ _createTestWMSpec_ Create a WMSpec that has a processing, merge, cleanup and skims tasks that can be used by the subscription creation test. """ testWorkload = WMWorkloadHelper(WMWorkload("TestWorkload")) testWorkload.setDashboardActivity("TestReReco") testWorkload.setSpecUrl("/path/to/workload") testWorkload.setOwnerDetails("sfoulkes", "DMWM", {'dn': 'MyDN'}) procTask = testWorkload.newTask("ProcessingTask") procTask.setTaskType("Processing") procTask.setSplittingAlgorithm("FileBased", files_per_job=1) procTaskCMSSW = procTask.makeStep("cmsRun1") procTaskCMSSW.setStepType("CMSSW") procTaskCMSSWHelper = procTaskCMSSW.getTypeHelper() procTask.setTaskType("Processing") procTask.setSiteWhitelist(["site1"]) procTask.setSiteBlacklist(["site2"]) procTask.applyTemplates() procTaskCMSSWHelper.addOutputModule("OutputA", primaryDataset="bogusPrimary", processedDataset="bogusProcessed", dataTier="DataTierA", lfnBase="bogusUnmerged", mergedLFNBase="bogusMerged", filterName=None) mergeTask = procTask.addTask("MergeTask") mergeTask.setInputReference(procTaskCMSSW, outputModule="OutputA") mergeTask.setTaskType("Merge") mergeTask.setSplittingAlgorithm("WMBSMergeBySize", min_merge_size=1, max_merge_size=2, max_merge_events=3) mergeTaskCMSSW = mergeTask.makeStep("cmsRun1") mergeTaskCMSSW.setStepType("CMSSW") mergeTaskCMSSWHelper = mergeTaskCMSSW.getTypeHelper() mergeTask.setTaskType("Merge") mergeTask.applyTemplates() mergeTaskCMSSWHelper.addOutputModule("Merged", primaryDataset="bogusPrimary", processedDataset="bogusProcessed", dataTier="DataTierA", lfnBase="bogusUnmerged", mergedLFNBase="bogusMerged", filterName=None) cleanupTask = procTask.addTask("CleanupTask") cleanupTask.setInputReference(procTaskCMSSW, outputModule="OutputA") cleanupTask.setTaskType("Merge") cleanupTask.setSplittingAlgorithm("SiblingProcessingBased", files_per_job=50) cleanupTaskCMSSW = cleanupTask.makeStep("cmsRun1") cleanupTaskCMSSW.setStepType("CMSSW") cleanupTaskCMSSWHelper = cleanupTaskCMSSW.getTypeHelper() cleanupTask.setTaskType("Cleanup") cleanupTask.applyTemplates() skimTask = mergeTask.addTask("SkimTask") skimTask.setTaskType("Skim") skimTask.setInputReference(mergeTaskCMSSW, outputModule="Merged") skimTask.setSplittingAlgorithm("FileBased", files_per_job=1, include_parents=True) skimTaskCMSSW = skimTask.makeStep("cmsRun1") skimTaskCMSSW.setStepType("CMSSW") skimTaskCMSSWHelper = skimTaskCMSSW.getTypeHelper() skimTask.setTaskType("Skim") skimTask.applyTemplates() skimTaskCMSSWHelper.addOutputModule("SkimOutputA", primaryDataset="bogusPrimary", processedDataset="bogusProcessed", dataTier="DataTierA", lfnBase="bogusUnmerged", mergedLFNBase="bogusMerged", filterName=None) skimTaskCMSSWHelper.addOutputModule("SkimOutputB", primaryDataset="bogusPrimary", processedDataset="bogusProcessed", dataTier="DataTierA", lfnBase="bogusUnmerged", mergedLFNBase="bogusMerged", filterName=None) return testWorkload def setupMCWMSpec(self): """Setup MC workflow""" self.wmspec = self.createMCWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = None self.siteDB = fakeSiteDB() # add sites that would normally be added by operator via resource_control locationDAO = self.daoFactory(classname="Locations.New") self.ses = [] for site in ['T2_XX_SiteA', 'T2_XX_SiteB']: locationDAO.execute(siteName=site, seName=self.siteDB.cmsNametoSE(site)[0]) self.ses.append(self.siteDB.cmsNametoSE(site)[0]) def createWMSpec(self, name='ReRecoWorkload'): factory = ReRecoWorkloadFactory() rerecoArgs["ConfigCacheID"] = createConfig(rerecoArgs["CouchDBName"]) wmspec = factory.factoryWorkloadConstruction(name, rerecoArgs) wmspec.setSpecUrl("/path/to/workload") wmspec.setSubscriptionInformation(custodialSites=[], nonCustodialSites=[], autoApproveSites=[], priority="Low", custodialSubType="Move") return wmspec def createMCWMSpec(self, name='MonteCarloWorkload'): wmspec = monteCarloWorkload(name, mcArgs) wmspec.setSpecUrl("/path/to/workload") getFirstTask(wmspec).addProduction(totalevents=10000) return wmspec def getDBS(self, wmspec): topLevelTask = getFirstTask(wmspec) inputDataset = topLevelTask.inputDataset() dbs = MockDBSReader(inputDataset.dbsurl) #dbsDict = {self.inputDataset.dbsurl : self.dbs} return dbs def createWMBSHelperWithTopTask(self, wmspec, block, mask=None, parentFlag=False, detail=False): topLevelTask = getFirstTask(wmspec) wmbs = WMBSHelper(wmspec, topLevelTask.name(), block, mask, cachepath=self.workDir) if block: if parentFlag: block = self.dbs.getFileBlockWithParents(block)[block] else: block = self.dbs.getFileBlock(block)[block] sub, files = wmbs.createSubscriptionAndAddFiles(block=block) if detail: return wmbs, sub, files else: return wmbs def testKillWorkflow(self): """ _testKillWorkflow_ Verify that workflow killing works correctly. """ configFile = EmulatorSetup.setupWMAgentConfig() config = loadConfigurationFile(configFile) baAPI = BossAirAPI(config=config) # Create nine jobs self.setupForKillTest(baAPI=baAPI) self.assertEqual(len(baAPI._listRunJobs()), 9) killWorkflow("Main", config, config) self.verifyFileKillStatus() self.verifyJobKillStatus() self.assertEqual(len(baAPI._listRunJobs()), 8) EmulatorSetup.deleteConfig(configFile) return def testCreateSubscription(self): """ _testCreateSubscription_ Verify that the subscription creation code works correctly. """ resourceControl = ResourceControl() resourceControl.insertSite(siteName='site1', seName='goodse.cern.ch', ceName='site1', plugin="TestPlugin") resourceControl.insertSite(siteName='site2', seName='goodse2.cern.ch', ceName='site2', plugin="TestPlugin") testWorkload = self.createTestWMSpec() testTopLevelTask = getFirstTask(testWorkload) testWMBSHelper = WMBSHelper(testWorkload, testTopLevelTask.name(), "SomeBlock", cachepath=self.workDir) testWMBSHelper.createTopLevelFileset() testWMBSHelper._createSubscriptionsInWMBS( testTopLevelTask, testWMBSHelper.topLevelFileset) procWorkflow = Workflow(name="TestWorkload", task="/TestWorkload/ProcessingTask") procWorkflow.load() self.assertEqual(procWorkflow.owner, "sfoulkes", "Error: Wrong owner: %s" % procWorkflow.owner) self.assertEqual(procWorkflow.group, "DMWM", "Error: Wrong group: %s" % procWorkflow.group) self.assertEqual(procWorkflow.wfType, "TestReReco", "Error: Wrong type.") self.assertEqual( procWorkflow.spec, os.path.join(self.workDir, procWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(procWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") mergedProcOutput = procWorkflow.outputMap["OutputA"][0][ "merged_output_fileset"] unmergedProcOutput = procWorkflow.outputMap["OutputA"][0][ "output_fileset"] mergedProcOutput.loadData() unmergedProcOutput.loadData() self.assertEqual( mergedProcOutput.name, "/TestWorkload/ProcessingTask/MergeTask/merged-Merged", "Error: Merged output fileset is wrong.") self.assertEqual(unmergedProcOutput.name, "/TestWorkload/ProcessingTask/unmerged-OutputA", "Error: Unmerged output fileset is wrong.") mergeWorkflow = Workflow(name="TestWorkload", task="/TestWorkload/ProcessingTask/MergeTask") mergeWorkflow.load() self.assertEqual(mergeWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual( mergeWorkflow.spec, os.path.join(self.workDir, mergeWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(mergeWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") cleanupWorkflow = Workflow( name="TestWorkload", task="/TestWorkload/ProcessingTask/CleanupTask") cleanupWorkflow.load() self.assertEqual(cleanupWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual( cleanupWorkflow.spec, os.path.join(self.workDir, cleanupWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(cleanupWorkflow.outputMap.keys()), 0, "Error: Wrong number of WF outputs.") unmergedMergeOutput = mergeWorkflow.outputMap["Merged"][0][ "output_fileset"] unmergedMergeOutput.loadData() self.assertEqual( unmergedMergeOutput.name, "/TestWorkload/ProcessingTask/MergeTask/merged-Merged", "Error: Unmerged output fileset is wrong.") skimWorkflow = Workflow( name="TestWorkload", task="/TestWorkload/ProcessingTask/MergeTask/SkimTask") skimWorkflow.load() self.assertEqual(skimWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual( skimWorkflow.spec, os.path.join(self.workDir, skimWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(skimWorkflow.outputMap.keys()), 2, "Error: Wrong number of WF outputs.") mergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0][ "merged_output_fileset"] unmergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0][ "output_fileset"] mergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0][ "merged_output_fileset"] unmergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0][ "output_fileset"] mergedSkimOutputA.loadData() mergedSkimOutputB.loadData() unmergedSkimOutputA.loadData() unmergedSkimOutputB.loadData() self.assertEqual( mergedSkimOutputA.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Merged output fileset is wrong: %s" % mergedSkimOutputA.name) self.assertEqual( unmergedSkimOutputA.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Unmerged output fileset is wrong.") self.assertEqual( mergedSkimOutputB.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Merged output fileset is wrong.") self.assertEqual( unmergedSkimOutputB.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Unmerged output fileset is wrong.") topLevelFileset = Fileset(name="TestWorkload-ProcessingTask-SomeBlock") topLevelFileset.loadData() procSubscription = Subscription(fileset=topLevelFileset, workflow=procWorkflow) procSubscription.loadData() self.assertEqual(len(procSubscription.getWhiteBlackList()), 2, "Error: Wrong site white/black list for proc sub.") for site in procSubscription.getWhiteBlackList(): if site["site_name"] == "site1": self.assertEqual(site["valid"], 1, "Error: Site should be white listed.") else: self.assertEqual(site["valid"], 0, "Error: Site should be black listed.") self.assertEqual(procSubscription["type"], "Processing", "Error: Wrong subscription type.") self.assertEqual(procSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") mergeSubscription = Subscription(fileset=unmergedProcOutput, workflow=mergeWorkflow) mergeSubscription.loadData() self.assertEqual(len(mergeSubscription.getWhiteBlackList()), 0, "Error: Wrong white/black list for merge sub.") self.assertEqual(mergeSubscription["type"], "Merge", "Error: Wrong subscription type.") self.assertEqual(mergeSubscription["split_algo"], "WMBSMergeBySize", "Error: Wrong split algo.") skimSubscription = Subscription(fileset=unmergedMergeOutput, workflow=skimWorkflow) skimSubscription.loadData() self.assertEqual(skimSubscription["type"], "Skim", "Error: Wrong subscription type.") self.assertEqual(skimSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") return def testTruncatedWFInsertion(self): """ _testTruncatedWFInsertion_ """ resourceControl = ResourceControl() resourceControl.insertSite(siteName='site1', seName='goodse.cern.ch', ceName='site1', plugin="TestPlugin") resourceControl.insertSite(siteName='site2', seName='goodse2.cern.ch', ceName='site2', plugin="TestPlugin") testWorkload = self.createTestWMSpec() testTopLevelTask = getFirstTask(testWorkload) testWMBSHelper = WMBSHelper(testWorkload, testTopLevelTask.name(), "SomeBlock", cachepath=self.workDir) testWMBSHelper.createTopLevelFileset() testWMBSHelper._createSubscriptionsInWMBS( testTopLevelTask, testWMBSHelper.topLevelFileset) testWorkload.truncate("ResubmitTestWorkload", "/TestWorkload/ProcessingTask/MergeTask", "someserver", "somedatabase") # create the subscription for multiple top task (MergeTask and CleanupTask for the same block) for task in testWorkload.getTopLevelTask(): testResubmitWMBSHelper = WMBSHelper(testWorkload, task.name(), "SomeBlock2", cachepath=self.workDir) testResubmitWMBSHelper.createTopLevelFileset() testResubmitWMBSHelper._createSubscriptionsInWMBS( task, testResubmitWMBSHelper.topLevelFileset) mergeWorkflow = Workflow(name="ResubmitTestWorkload", task="/ResubmitTestWorkload/MergeTask") mergeWorkflow.load() self.assertEqual(mergeWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual( mergeWorkflow.spec, os.path.join(self.workDir, mergeWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(mergeWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") unmergedMergeOutput = mergeWorkflow.outputMap["Merged"][0][ "output_fileset"] unmergedMergeOutput.loadData() self.assertEqual(unmergedMergeOutput.name, "/ResubmitTestWorkload/MergeTask/merged-Merged", "Error: Unmerged output fileset is wrong.") skimWorkflow = Workflow( name="ResubmitTestWorkload", task="/ResubmitTestWorkload/MergeTask/SkimTask") skimWorkflow.load() self.assertEqual(skimWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual( skimWorkflow.spec, os.path.join(self.workDir, skimWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(skimWorkflow.outputMap.keys()), 2, "Error: Wrong number of WF outputs.") mergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0][ "merged_output_fileset"] unmergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0][ "output_fileset"] mergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0][ "merged_output_fileset"] unmergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0][ "output_fileset"] mergedSkimOutputA.loadData() mergedSkimOutputB.loadData() unmergedSkimOutputA.loadData() unmergedSkimOutputB.loadData() self.assertEqual( mergedSkimOutputA.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Merged output fileset is wrong: %s" % mergedSkimOutputA.name) self.assertEqual( unmergedSkimOutputA.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Unmerged output fileset is wrong.") self.assertEqual( mergedSkimOutputB.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Merged output fileset is wrong.") self.assertEqual( unmergedSkimOutputB.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Unmerged output fileset is wrong.") topLevelFileset = Fileset( name="ResubmitTestWorkload-MergeTask-SomeBlock2") topLevelFileset.loadData() mergeSubscription = Subscription(fileset=topLevelFileset, workflow=mergeWorkflow) mergeSubscription.loadData() self.assertEqual(len(mergeSubscription.getWhiteBlackList()), 0, "Error: Wrong white/black list for merge sub.") self.assertEqual(mergeSubscription["type"], "Merge", "Error: Wrong subscription type.") self.assertEqual(mergeSubscription["split_algo"], "WMBSMergeBySize", "Error: Wrong split algo.") skimSubscription = Subscription(fileset=unmergedMergeOutput, workflow=skimWorkflow) skimSubscription.loadData() self.assertEqual(skimSubscription["type"], "Skim", "Error: Wrong subscription type.") self.assertEqual(skimSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") return def testReReco(self): """ReReco workflow""" # create workflow block = self.dataset + "#1" wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)) self.assertEqual(len(files), 1) def testReRecoBlackRunRestriction(self): """ReReco workflow with Run restrictions""" block = self.dataset + "#2" #add run blacklist self.topLevelTask.setInputRunBlacklist([1, 2, 3, 4]) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), 0) def testReRecoWhiteRunRestriction(self): block = self.dataset + "#2" # Run Whitelist self.topLevelTask.setInputRunWhitelist([2]) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), GlobalParams.numOfFilesPerBlock()) def testLumiMaskRestrictionsOK(self): block = self.dataset + "#1" self.wmspec.getTopLevelTask()[0].data.input.splitting.runs = ['1'] self.wmspec.getTopLevelTask()[0].data.input.splitting.lumis = ['1,1'] wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), GlobalParams.numOfFilesPerBlock()) def testLumiMaskRestrictionsKO(self): block = self.dataset + "#1" self.wmspec.getTopLevelTask()[0].data.input.splitting.runs = [ '123454321' ] self.wmspec.getTopLevelTask()[0].data.input.splitting.lumis = [ '123,123' ] wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), 0) def testDuplicateFileInsert(self): # using default wmspec block = self.dataset + "#1" wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) wmbs.topLevelFileset.loadData() numOfFiles = len(wmbs.topLevelFileset.files) # check initially inserted files. dbsFiles = self.dbs.getFileBlock(block)[block]['Files'] self.assertEqual(numOfFiles, len(dbsFiles)) firstFileset = wmbs.topLevelFileset wmbsDao = wmbs.daofactory(classname="Files.InFileset") numOfFiles = len(wmbsDao.execute(firstFileset.id)) self.assertEqual(numOfFiles, len(dbsFiles)) # use the new spec with same inputdataset block = self.dataset + "#1" wmspec = self.createWMSpec("TestSpec1") dbs = self.getDBS(wmspec) wmbs = self.createWMBSHelperWithTopTask(wmspec, block) # check duplicate insert dbsFiles = dbs.getFileBlock(block)[block]['Files'] numOfFiles = wmbs.addFiles(dbs.getFileBlock(block)[block]) self.assertEqual(numOfFiles, 0) secondFileset = wmbs.topLevelFileset wmbsDao = wmbs.daofactory(classname="Files.InFileset") numOfFiles = len(wmbsDao.execute(secondFileset.id)) self.assertEqual(numOfFiles, len(dbsFiles)) self.assertNotEqual(firstFileset.id, secondFileset.id) def testDuplicateSubscription(self): """Can't duplicate subscriptions""" # using default wmspec block = self.dataset + "#1" wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) wmbs.topLevelFileset.loadData() numOfFiles = len(wmbs.topLevelFileset.files) filesetId = wmbs.topLevelFileset.id subId = wmbs.topLevelSubscription['id'] # check initially inserted files. dbsFiles = self.dbs.getFileBlock(block)[block]['Files'] self.assertEqual(numOfFiles, len(dbsFiles)) firstFileset = wmbs.topLevelFileset self.assertEqual(numOfFiles, len(dbsFiles)) # reinsert subscription - shouldn't create anything new wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) wmbs.topLevelFileset.loadData() self.assertEqual(numOfFiles, len(wmbs.topLevelFileset.files)) self.assertEqual(filesetId, wmbs.topLevelFileset.id) self.assertEqual(subId, wmbs.topLevelSubscription['id']) # now do a montecarlo workflow self.setupMCWMSpec() mask = Mask(FirstRun=12, FirstLumi=1234, FirstEvent=12345, LastEvent=999995, LastLumi=12345, LastRun=12) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, None, mask) wmbs.topLevelFileset.loadData() numOfFiles = len(wmbs.topLevelFileset.files) filesetId = wmbs.topLevelFileset.id subId = wmbs.topLevelSubscription['id'] # check initially inserted files. numDbsFiles = 1 self.assertEqual(numOfFiles, numDbsFiles) firstFileset = wmbs.topLevelFileset self.assertEqual(numOfFiles, numDbsFiles) # reinsert subscription - shouldn't create anything new wmbs = self.createWMBSHelperWithTopTask(self.wmspec, None, mask) wmbs.topLevelFileset.loadData() self.assertEqual(numOfFiles, len(wmbs.topLevelFileset.files)) self.assertEqual(filesetId, wmbs.topLevelFileset.id) self.assertEqual(subId, wmbs.topLevelSubscription['id']) def testParentage(self): """ 1. check whether parent files are created in wmbs. 2. check parent files are associated to child. 3. When 2 specs with the same input data (one with parent processing, one without it) is inserted, if one without parent processing inserted first then the other with parent processing insert, it still needs to create parent files although child files are duplicate """ block = self.dataset + "#1" wmbs, sub, numFiles = self.createWMBSHelperWithTopTask( self.wmspec, block, parentFlag=False, detail=True) # file creation without parents self.assertEqual(GlobalParams.numOfFilesPerBlock(), numFiles) wmbs.topLevelFileset.loadData() for child in wmbs.topLevelFileset.files: # no parent per child self.assertEqual(len(child["parents"]), 0) wmbs, sub, numFiles = self.createWMBSHelperWithTopTask(self.wmspec, block, parentFlag=True, detail=True) self.assertEqual(GlobalParams.numOfFilesPerBlock(), numFiles) wmbs.topLevelFileset.loadData() for child in wmbs.topLevelFileset.files: # one parent per child self.assertEqual(len(child["parents"]), 1) def testMCFakeFileInjection(self): """Inject fake Monte Carlo files into WMBS""" self.setupMCWMSpec() mask = Mask(FirstRun=12, FirstLumi=1234, FirstEvent=12345, LastEvent=999995, LastLumi=12345, LastRun=12) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, None, mask) subscription = wmbs.topLevelSubscription self.assertEqual(1, subscription.exists()) fileset = subscription['fileset'] self.assertEqual(1, fileset.exists()) fileset.loadData() # need to refresh from database self.assertEqual(len(fileset.files), 1) self.assertEqual(len(fileset.parents), 0) self.assertFalse(fileset.open) file = list(fileset.files)[0] self.assertEqual(file['events'], mask['LastEvent'] - mask['FirstEvent'] + 1) # inclusive range self.assertEqual(file['merged'], False) # merged files get added to dbs self.assertEqual(len(file['parents']), 0) #file.loadData() self.assertEqual(sorted(file['locations']), sorted(self.ses)) self.assertEqual(len(file.getParentLFNs()), 0) self.assertEqual(len(file.getRuns()), 1) run = file.getRuns()[0] self.assertEqual(run.run, mask['FirstRun']) self.assertEqual(run.lumis[0], mask['FirstLumi']) self.assertEqual(run.lumis[-1], mask['LastLumi']) self.assertEqual(len(run.lumis), mask['LastLumi'] - mask['FirstLumi'] + 1)
class WMBSHelperTest(unittest.TestCase): def setUp(self): """ _setUp_ """ self.testInit = TestInitCouchApp(__file__) self.testInit.setLogging() self.testInit.setDatabaseConnection() self.testInit.setupCouch("wmbshelper_t/jobs", "JobDump") self.testInit.setupCouch("wmbshelper_t/fwjrs", "FWJRDump") os.environ["COUCHDB"] = "wmbshelper_t" self.testInit.setSchema(customModules = ["WMCore.WMBS", "WMComponent.DBSBuffer.Database", "WMCore.BossAir", "WMCore.ResourceControl"], useDefault = False) self.workDir = self.testInit.generateWorkDir() self.wmspec = self.createWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = MockDBSReader(self.inputDataset.dbsurl) self.daoFactory = DAOFactory(package = "WMCore.WMBS", logger = threading.currentThread().logger, dbinterface = threading.currentThread().dbi) return def tearDown(self): """ _tearDown_ Clear out the database. """ self.testInit.clearDatabase() self.testInit.tearDownCouch() self.testInit.delWorkDir() return def setupForKillTest(self, baAPI = None): """ _setupForKillTest_ Inject a workflow into WMBS that has a processing task, a merge task and a cleanup task. Inject files into the various tasks at various processing states (acquired, complete, available...). Also create jobs for each subscription in various states. """ myThread = threading.currentThread() daoFactory = DAOFactory(package = "WMCore.WMBS", logger = myThread.logger, dbinterface = myThread.dbi) locationAction = daoFactory(classname = "Locations.New") changeStateAction = daoFactory(classname = "Jobs.ChangeState") resourceControl = ResourceControl() resourceControl.insertSite(siteName = 'site1', seName = 'goodse.cern.ch', ceName = 'site1', plugin = "TestPlugin") resourceControl.insertThreshold(siteName = 'site1', taskType = 'Processing', \ maxSlots = 10000) inputFileset = Fileset("input") inputFileset.create() inputFileA = File("lfnA", locations = "goodse.cern.ch") inputFileB = File("lfnB", locations = "goodse.cern.ch") inputFileC = File("lfnC", locations = "goodse.cern.ch") inputFileA.create() inputFileB.create() inputFileC.create() inputFileset.addFile(inputFileA) inputFileset.addFile(inputFileB) inputFileset.addFile(inputFileC) inputFileset.commit() unmergedOutputFileset = Fileset("unmerged") unmergedOutputFileset.create() unmergedFileA = File("ulfnA", locations = "goodse.cern.ch") unmergedFileB = File("ulfnB", locations = "goodse.cern.ch") unmergedFileC = File("ulfnC", locations = "goodse.cern.ch") unmergedFileA.create() unmergedFileB.create() unmergedFileC.create() unmergedOutputFileset.addFile(unmergedFileA) unmergedOutputFileset.addFile(unmergedFileB) unmergedOutputFileset.addFile(unmergedFileC) unmergedOutputFileset.commit() mainProcWorkflow = Workflow(spec = "spec1", owner = "Steve", name = "Main", task = "Proc") mainProcWorkflow.create() mainProcMergeWorkflow = Workflow(spec = "spec1", owner = "Steve", name = "Main", task = "ProcMerge") mainProcMergeWorkflow.create() mainCleanupWorkflow = Workflow(spec = "spec1", owner = "Steve", name = "Main", task = "Cleanup") mainCleanupWorkflow.create() self.mainProcSub = Subscription(fileset = inputFileset, workflow = mainProcWorkflow, type = "Processing") self.mainProcSub.create() self.mainProcSub.acquireFiles(inputFileA) self.mainProcSub.completeFiles(inputFileB) procJobGroup = JobGroup(subscription = self.mainProcSub) procJobGroup.create() self.procJobA = Job(name = "ProcJobA") self.procJobA["state"] = "new" self.procJobA["location"] = "site1" self.procJobB = Job(name = "ProcJobB") self.procJobB["state"] = "executing" self.procJobB["location"] = "site1" self.procJobC = Job(name = "ProcJobC") self.procJobC["state"] = "complete" self.procJobC["location"] = "site1" self.procJobA.create(procJobGroup) self.procJobB.create(procJobGroup) self.procJobC.create(procJobGroup) self.mainMergeSub = Subscription(fileset = unmergedOutputFileset, workflow = mainProcMergeWorkflow, type = "Merge") self.mainMergeSub.create() self.mainMergeSub.acquireFiles(unmergedFileA) self.mainMergeSub.failFiles(unmergedFileB) mergeJobGroup = JobGroup(subscription = self.mainMergeSub) mergeJobGroup.create() self.mergeJobA = Job(name = "MergeJobA") self.mergeJobA["state"] = "exhausted" self.mergeJobA["location"] = "site1" self.mergeJobB = Job(name = "MergeJobB") self.mergeJobB["state"] = "cleanout" self.mergeJobB["location"] = "site1" self.mergeJobC = Job(name = "MergeJobC") self.mergeJobC["state"] = "new" self.mergeJobC["location"] = "site1" self.mergeJobA.create(mergeJobGroup) self.mergeJobB.create(mergeJobGroup) self.mergeJobC.create(mergeJobGroup) self.mainCleanupSub = Subscription(fileset = unmergedOutputFileset, workflow = mainCleanupWorkflow, type = "Cleanup") self.mainCleanupSub.create() self.mainCleanupSub.acquireFiles(unmergedFileA) self.mainCleanupSub.completeFiles(unmergedFileB) cleanupJobGroup = JobGroup(subscription = self.mainCleanupSub) cleanupJobGroup.create() self.cleanupJobA = Job(name = "CleanupJobA") self.cleanupJobA["state"] = "new" self.cleanupJobA["location"] = "site1" self.cleanupJobB = Job(name = "CleanupJobB") self.cleanupJobB["state"] = "executing" self.cleanupJobB["location"] = "site1" self.cleanupJobC = Job(name = "CleanupJobC") self.cleanupJobC["state"] = "complete" self.cleanupJobC["location"] = "site1" self.cleanupJobA.create(cleanupJobGroup) self.cleanupJobB.create(cleanupJobGroup) self.cleanupJobC.create(cleanupJobGroup) jobList = [self.procJobA, self.procJobB, self.procJobC, self.mergeJobA, self.mergeJobB, self.mergeJobC, self.cleanupJobA, self.cleanupJobB, self.cleanupJobC] changeStateAction.execute(jobList) if baAPI: for job in jobList: job['plugin'] = 'TestPlugin' job['userdn'] = 'Steve' job['custom']['location'] = 'site1' baAPI.createNewJobs(wmbsJobs = jobList) # We'll create an unrelated workflow to verify that it isn't affected # by the killing code. bogusFileset = Fileset("dontkillme") bogusFileset.create() bogusFileA = File("bogus/lfnA", locations = "goodse.cern.ch") bogusFileA.create() bogusFileset.addFile(bogusFileA) bogusFileset.commit() bogusWorkflow = Workflow(spec = "spec2", owner = "Steve", name = "Bogus", task = "Proc") bogusWorkflow.create() self.bogusSub = Subscription(fileset = bogusFileset, workflow = bogusWorkflow, type = "Processing") self.bogusSub.create() self.bogusSub.acquireFiles(bogusFileA) return def verifyFileKillStatus(self): """ _verifyFileKillStatus_ Verify that all files were killed correctly. The status of files in Cleanup and LogCollect subscriptions isn't modified. Status of already completed and failed files is not modified. Also verify that the bogus subscription is untouched. """ failedFiles = self.mainProcSub.filesOfStatus("Failed") acquiredFiles = self.mainProcSub.filesOfStatus("Acquired") completedFiles = self.mainProcSub.filesOfStatus("Completed") availableFiles = self.mainProcSub.filesOfStatus("Available") bogusAcquiredFiles = self.bogusSub.filesOfStatus("Acquired") self.assertEqual(len(availableFiles), 0, \ "Error: There should be no available files.") self.assertEqual(len(acquiredFiles), 0, \ "Error: There should be no acquired files.") self.assertEqual(len(bogusAcquiredFiles), 1, \ "Error: There should be one acquired file.") self.assertEqual(len(completedFiles), 3, \ "Error: There should be only one completed file.") goldenLFNs = ["lfnA", "lfnB", "lfnC"] for completedFile in completedFiles: self.assertTrue(completedFile["lfn"] in goldenLFNs, \ "Error: Extra completed file.") goldenLFNs.remove(completedFile["lfn"]) self.assertEqual(len(failedFiles), 0, \ "Error: There should be no failed files.") self.assertEqual(len(goldenLFNs), 0, \ "Error: Missing LFN") failedFiles = self.mainMergeSub.filesOfStatus("Failed") acquiredFiles = self.mainMergeSub.filesOfStatus("Acquired") completedFiles = self.mainMergeSub.filesOfStatus("Completed") availableFiles = self.mainMergeSub.filesOfStatus("Available") self.assertEqual(len(acquiredFiles), 0, \ "Error: Merge subscription should have 0 acq files.") self.assertEqual(len(availableFiles), 0, \ "Error: Merge subscription should have 0 avail files.") self.assertEqual(len(failedFiles), 1, \ "Error: Merge subscription should have 1 failed files.") self.assertEqual(list(failedFiles)[0]["lfn"], "ulfnB", "Error: Wrong failed file.") self.assertEqual(len(completedFiles), 2, \ "Error: Merge subscription should have 2 compl files.") goldenLFNs = ["ulfnA", "ulfnC"] for completedFile in completedFiles: self.assertTrue(completedFile["lfn"] in goldenLFNs, \ "Error: Extra complete file.") goldenLFNs.remove(completedFile["lfn"]) self.assertEqual(len(goldenLFNs), 0, \ "Error: Missing LFN") failedFiles = self.mainCleanupSub.filesOfStatus("Failed") acquiredFiles = self.mainCleanupSub.filesOfStatus("Acquired") completedFiles = self.mainCleanupSub.filesOfStatus("Completed") availableFiles = self.mainCleanupSub.filesOfStatus("Available") self.assertEqual(len(failedFiles), 0, \ "Error: Cleanup subscription should have 0 fai files.") self.assertEqual(len(acquiredFiles), 1, \ "Error: There should be only one acquired file.") self.assertEqual(list(acquiredFiles)[0]["lfn"], "ulfnA", \ "Error: Wrong acquired LFN.") self.assertEqual(len(completedFiles), 1, \ "Error: There should be only one completed file.") self.assertEqual(list(completedFiles)[0]["lfn"], "ulfnB", \ "Error: Wrong completed LFN.") self.assertEqual(len(availableFiles), 1, \ "Error: There should be only one available file.") self.assertEqual(list(availableFiles)[0]["lfn"], "ulfnC", \ "Error: Wrong completed LFN.") return def verifyJobKillStatus(self): """ _verifyJobKillStatus_ Verify that jobs are killed correctly. Jobs belonging to Cleanup and LogCollect subscriptions are not killed. The status of jobs that have already finished running is not changed. """ self.procJobA.load() self.procJobB.load() self.procJobC.load() self.assertEqual(self.procJobA["state"], "killed", \ "Error: Proc job A should be killed.") self.assertEqual(self.procJobB["state"], "killed", \ "Error: Proc job B should be killed.") self.assertEqual(self.procJobC["state"], "complete", \ "Error: Proc job C should be complete.") self.mergeJobA.load() self.mergeJobB.load() self.mergeJobC.load() self.assertEqual(self.mergeJobA["state"], "exhausted", \ "Error: Merge job A should be exhausted.") self.assertEqual(self.mergeJobB["state"], "cleanout", \ "Error: Merge job B should be cleanout.") self.assertEqual(self.mergeJobC["state"], "killed", \ "Error: Merge job C should be killed.") self.cleanupJobA.load() self.cleanupJobB.load() self.cleanupJobC.load() self.assertEqual(self.cleanupJobA["state"], "new", \ "Error: Cleanup job A should be new.") self.assertEqual(self.cleanupJobB["state"], "executing", \ "Error: Cleanup job B should be executing.") self.assertEqual(self.cleanupJobC["state"], "complete", \ "Error: Cleanup job C should be complete.") return def testKillWorkflow(self): """ _testKillWorkflow_ Verify that workflow killing works correctly. """ configFile = EmulatorSetup.setupWMAgentConfig() config = loadConfigurationFile(configFile) baAPI = BossAirAPI(config = config) # Create nine jobs self.setupForKillTest(baAPI = baAPI) self.assertEqual(len(baAPI._listRunJobs()), 9) killWorkflow("Main", config, config) self.verifyFileKillStatus() self.verifyJobKillStatus() self.assertEqual(len(baAPI._listRunJobs()), 8) EmulatorSetup.deleteConfig(configFile) return def createTestWMSpec(self): """ _createTestWMSpec_ Create a WMSpec that has a processing, merge, cleanup and skims tasks that can be used by the subscription creation test. """ testWorkload = WMWorkloadHelper(WMWorkload("TestWorkload")) testWorkload.setDashboardActivity("TestReReco") testWorkload.setSpecUrl("/path/to/workload") testWorkload.setOwnerDetails("sfoulkes", "DMWM", {'dn': 'MyDN'}) procTask = testWorkload.newTask("ProcessingTask") procTask.setTaskType("Processing") procTask.setSplittingAlgorithm("FileBased", files_per_job = 1) procTaskCMSSW = procTask.makeStep("cmsRun1") procTaskCMSSW.setStepType("CMSSW") procTaskCMSSWHelper = procTaskCMSSW.getTypeHelper() procTask.setTaskType("Processing") procTask.setSiteWhitelist(["site1"]) procTask.setSiteBlacklist(["site2"]) procTask.applyTemplates() procTaskCMSSWHelper.addOutputModule("OutputA", primaryDataset = "bogusPrimary", processedDataset = "bogusProcessed", dataTier = "DataTierA", lfnBase = "bogusUnmerged", mergedLFNBase = "bogusMerged", filterName = None) mergeTask = procTask.addTask("MergeTask") mergeTask.setInputReference(procTaskCMSSW, outputModule = "OutputA") mergeTask.setTaskType("Merge") mergeTask.setSplittingAlgorithm("WMBSMergeBySize", min_merge_size = 1, max_merge_size = 2, max_merge_events = 3) mergeTaskCMSSW = mergeTask.makeStep("cmsRun1") mergeTaskCMSSW.setStepType("CMSSW") mergeTaskCMSSWHelper = mergeTaskCMSSW.getTypeHelper() mergeTask.setTaskType("Merge") mergeTask.applyTemplates() mergeTaskCMSSWHelper.addOutputModule("Merged", primaryDataset = "bogusPrimary", processedDataset = "bogusProcessed", dataTier = "DataTierA", lfnBase = "bogusUnmerged", mergedLFNBase = "bogusMerged", filterName = None) cleanupTask = procTask.addTask("CleanupTask") cleanupTask.setInputReference(procTaskCMSSW, outputModule = "OutputA") cleanupTask.setTaskType("Merge") cleanupTask.setSplittingAlgorithm("SiblingProcessingBase", files_per_job = 50) cleanupTaskCMSSW = cleanupTask.makeStep("cmsRun1") cleanupTaskCMSSW.setStepType("CMSSW") cleanupTaskCMSSWHelper = cleanupTaskCMSSW.getTypeHelper() cleanupTask.setTaskType("Cleanup") cleanupTask.applyTemplates() skimTask = mergeTask.addTask("SkimTask") skimTask.setTaskType("Skim") skimTask.setInputReference(mergeTaskCMSSW, outputModule = "Merged") skimTask.setSplittingAlgorithm("FileBased", files_per_job = 1, include_parents = True) skimTaskCMSSW = skimTask.makeStep("cmsRun1") skimTaskCMSSW.setStepType("CMSSW") skimTaskCMSSWHelper = skimTaskCMSSW.getTypeHelper() skimTask.setTaskType("Skim") skimTask.applyTemplates() skimTaskCMSSWHelper.addOutputModule("SkimOutputA", primaryDataset = "bogusPrimary", processedDataset = "bogusProcessed", dataTier = "DataTierA", lfnBase = "bogusUnmerged", mergedLFNBase = "bogusMerged", filterName = None) skimTaskCMSSWHelper.addOutputModule("SkimOutputB", primaryDataset = "bogusPrimary", processedDataset = "bogusProcessed", dataTier = "DataTierA", lfnBase = "bogusUnmerged", mergedLFNBase = "bogusMerged", filterName = None) return testWorkload def testCreateSubscription(self): """ _testCreateSubscription_ Verify that the subscription creation code works correctly. """ resourceControl = ResourceControl() resourceControl.insertSite(siteName = 'site1', seName = 'goodse.cern.ch', ceName = 'site1', plugin = "TestPlugin") resourceControl.insertSite(siteName = 'site2', seName = 'goodse2.cern.ch', ceName = 'site2', plugin = "TestPlugin") testWorkload = self.createTestWMSpec() testWMBSHelper = WMBSHelper(testWorkload, "SomeBlock", cachepath = self.workDir) testWMBSHelper.createSubscription() procWorkflow = Workflow(name = "TestWorkload", task = "/TestWorkload/ProcessingTask") procWorkflow.load() self.assertEqual(procWorkflow.owner, "sfoulkes", "Error: Wrong owner: %s" % procWorkflow.owner) self.assertEqual(procWorkflow.group, "DMWM", "Error: Wrong group: %s" % procWorkflow.group) self.assertEqual(procWorkflow.wfType, "TestReReco", "Error: Wrong type.") self.assertEqual(procWorkflow.spec, os.path.join(self.workDir, procWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(procWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") mergedProcOutput = procWorkflow.outputMap["OutputA"][0]["merged_output_fileset"] unmergedProcOutput = procWorkflow.outputMap["OutputA"][0]["output_fileset"] mergedProcOutput.loadData() unmergedProcOutput.loadData() self.assertEqual(mergedProcOutput.name, "/TestWorkload/ProcessingTask/MergeTask/merged-Merged", "Error: Merged output fileset is wrong.") self.assertEqual(unmergedProcOutput.name, "/TestWorkload/ProcessingTask/unmerged-OutputA", "Error: Unmerged output fileset is wrong.") mergeWorkflow = Workflow(name = "TestWorkload", task = "/TestWorkload/ProcessingTask/MergeTask") mergeWorkflow.load() self.assertEqual(mergeWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(mergeWorkflow.spec, os.path.join(self.workDir, mergeWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(mergeWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") cleanupWorkflow = Workflow(name = "TestWorkload", task = "/TestWorkload/ProcessingTask/CleanupTask") cleanupWorkflow.load() self.assertEqual(cleanupWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(cleanupWorkflow.spec, os.path.join(self.workDir, cleanupWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(cleanupWorkflow.outputMap.keys()), 0, "Error: Wrong number of WF outputs.") unmergedMergeOutput = mergeWorkflow.outputMap["Merged"][0]["output_fileset"] unmergedMergeOutput.loadData() self.assertEqual(unmergedMergeOutput.name, "/TestWorkload/ProcessingTask/MergeTask/merged-Merged", "Error: Unmerged output fileset is wrong.") skimWorkflow = Workflow(name = "TestWorkload", task = "/TestWorkload/ProcessingTask/MergeTask/SkimTask") skimWorkflow.load() self.assertEqual(skimWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(skimWorkflow.spec, os.path.join(self.workDir, skimWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(skimWorkflow.outputMap.keys()), 2, "Error: Wrong number of WF outputs.") mergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0]["merged_output_fileset"] unmergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0]["output_fileset"] mergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0]["merged_output_fileset"] unmergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0]["output_fileset"] mergedSkimOutputA.loadData() mergedSkimOutputB.loadData() unmergedSkimOutputA.loadData() unmergedSkimOutputB.loadData() self.assertEqual(mergedSkimOutputA.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Merged output fileset is wrong: %s" % mergedSkimOutputA.name) self.assertEqual(unmergedSkimOutputA.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Unmerged output fileset is wrong.") self.assertEqual(mergedSkimOutputB.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Merged output fileset is wrong.") self.assertEqual(unmergedSkimOutputB.name, "/TestWorkload/ProcessingTask/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Unmerged output fileset is wrong.") topLevelFileset = Fileset(name = "TestWorkload-ProcessingTask-SomeBlock") topLevelFileset.loadData() procSubscription = Subscription(fileset = topLevelFileset, workflow = procWorkflow) procSubscription.loadData() self.assertEqual(len(procSubscription.getWhiteBlackList()), 2, "Error: Wrong site white/black list for proc sub.") for site in procSubscription.getWhiteBlackList(): if site["site_name"] == "site1": self.assertEqual(site["valid"], 1, "Error: Site should be white listed.") else: self.assertEqual(site["valid"], 0, "Error: Site should be black listed.") self.assertEqual(procSubscription["type"], "Processing", "Error: Wrong subscription type.") self.assertEqual(procSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") mergeSubscription = Subscription(fileset = unmergedProcOutput, workflow = mergeWorkflow) mergeSubscription.loadData() self.assertEqual(len(mergeSubscription.getWhiteBlackList()), 0, "Error: Wrong white/black list for merge sub.") self.assertEqual(mergeSubscription["type"], "Merge", "Error: Wrong subscription type.") self.assertEqual(mergeSubscription["split_algo"], "WMBSMergeBySize", "Error: Wrong split algo.") skimSubscription = Subscription(fileset = unmergedMergeOutput, workflow = skimWorkflow) skimSubscription.loadData() self.assertEqual(skimSubscription["type"], "Skim", "Error: Wrong subscription type.") self.assertEqual(skimSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") return def testTruncatedWFInsertion(self): """ _testTruncatedWFInsertion_ """ resourceControl = ResourceControl() resourceControl.insertSite(siteName = 'site1', seName = 'goodse.cern.ch', ceName = 'site1', plugin = "TestPlugin") resourceControl.insertSite(siteName = 'site2', seName = 'goodse2.cern.ch', ceName = 'site2', plugin = "TestPlugin") testWorkload = self.createTestWMSpec() testWMBSHelper = WMBSHelper(testWorkload, "SomeBlock", cachepath = self.workDir) testWMBSHelper.createSubscription() testWorkload.truncate("ResubmitTestWorkload", "/TestWorkload/ProcessingTask/MergeTask", "someserver", "somedatabase") testResubmitWMBSHelper = WMBSHelper(testWorkload, "SomeBlock2", cachepath = self.workDir) testResubmitWMBSHelper.createSubscription() mergeWorkflow = Workflow(name = "ResubmitTestWorkload", task = "/ResubmitTestWorkload/MergeTask") mergeWorkflow.load() self.assertEqual(mergeWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(mergeWorkflow.spec, os.path.join(self.workDir, mergeWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(mergeWorkflow.outputMap.keys()), 1, "Error: Wrong number of WF outputs.") cleanupWorkflow = Workflow(name = "ResubmitTestWorkload", task = "/ResubmitTestWorkload/CleanupTask") cleanupWorkflow.load() self.assertEqual(cleanupWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(cleanupWorkflow.spec, os.path.join(self.workDir, cleanupWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(cleanupWorkflow.outputMap.keys()), 0, "Error: Wrong number of WF outputs.") unmergedMergeOutput = mergeWorkflow.outputMap["Merged"][0]["output_fileset"] unmergedMergeOutput.loadData() self.assertEqual(unmergedMergeOutput.name, "/ResubmitTestWorkload/MergeTask/merged-Merged", "Error: Unmerged output fileset is wrong.") skimWorkflow = Workflow(name = "ResubmitTestWorkload", task = "/ResubmitTestWorkload/MergeTask/SkimTask") skimWorkflow.load() self.assertEqual(skimWorkflow.owner, "sfoulkes", "Error: Wrong owner.") self.assertEqual(skimWorkflow.spec, os.path.join(self.workDir, skimWorkflow.name, "WMSandbox", "WMWorkload.pkl"), "Error: Wrong spec URL") self.assertEqual(len(skimWorkflow.outputMap.keys()), 2, "Error: Wrong number of WF outputs.") mergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0]["merged_output_fileset"] unmergedSkimOutputA = skimWorkflow.outputMap["SkimOutputA"][0]["output_fileset"] mergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0]["merged_output_fileset"] unmergedSkimOutputB = skimWorkflow.outputMap["SkimOutputB"][0]["output_fileset"] mergedSkimOutputA.loadData() mergedSkimOutputB.loadData() unmergedSkimOutputA.loadData() unmergedSkimOutputB.loadData() self.assertEqual(mergedSkimOutputA.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Merged output fileset is wrong: %s" % mergedSkimOutputA.name) self.assertEqual(unmergedSkimOutputA.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputA", "Error: Unmerged output fileset is wrong.") self.assertEqual(mergedSkimOutputB.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Merged output fileset is wrong.") self.assertEqual(unmergedSkimOutputB.name, "/ResubmitTestWorkload/MergeTask/SkimTask/unmerged-SkimOutputB", "Error: Unmerged output fileset is wrong.") topLevelFileset = Fileset(name = "ResubmitTestWorkload-MergeTask-SomeBlock2") topLevelFileset.loadData() mergeSubscription = Subscription(fileset = topLevelFileset, workflow = mergeWorkflow) mergeSubscription.loadData() self.assertEqual(len(mergeSubscription.getWhiteBlackList()), 0, "Error: Wrong white/black list for merge sub.") self.assertEqual(mergeSubscription["type"], "Merge", "Error: Wrong subscription type.") self.assertEqual(mergeSubscription["split_algo"], "WMBSMergeBySize", "Error: Wrong split algo.") skimSubscription = Subscription(fileset = unmergedMergeOutput, workflow = skimWorkflow) skimSubscription.loadData() self.assertEqual(skimSubscription["type"], "Skim", "Error: Wrong subscription type.") self.assertEqual(skimSubscription["split_algo"], "FileBased", "Error: Wrong split algo.") return def setupMCWMSpec(self): """Setup MC workflow""" self.wmspec = self.createMCWMSpec() self.topLevelTask = getFirstTask(self.wmspec) self.inputDataset = self.topLevelTask.inputDataset() self.dataset = self.topLevelTask.getInputDatasetPath() self.dbs = None self.siteDB = fakeSiteDB() def createWMSpec(self, name = 'ReRecoWorkload'): wmspec = rerecoWorkload(name, rerecoArgs) wmspec.setSpecUrl("/path/to/workload") return wmspec def createMCWMSpec(self, name = 'MonteCarloWorkload'): wmspec = monteCarloWorkload(name, mcArgs) wmspec.setSpecUrl("/path/to/workload") getFirstTask(wmspec).addProduction(totalevents = 10000) return wmspec def getDBS(self, wmspec): topLevelTask = getFirstTask(wmspec) inputDataset = topLevelTask.inputDataset() dbs = MockDBSReader(inputDataset.dbsurl) #dbsDict = {self.inputDataset.dbsurl : self.dbs} return dbs def createWMBSHelperWithTopTask(self, wmspec, block, mask = None): topLevelTask = getFirstTask(wmspec) wmbs = WMBSHelper(wmspec, block, mask, cachepath = self.workDir) if block: block = self.dbs.getFileBlock(block)[block] wmbs.createSubscriptionAndAddFiles(block = block) return wmbs # def testProduction(self): # """Production workflow""" # pass def testReReco(self): """ReReco workflow""" # create workflow block = self.dataset + "#1" wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)) self.assertEqual(len(files), 1) def testReRecoBlackRunRestriction(self): """ReReco workflow with Run restrictions""" block = self.dataset + "#2" #add run blacklist self.topLevelTask.setInputRunBlacklist([1, 2, 3, 4]) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), 0) def testReRecoWhiteRunRestriction(self): block = self.dataset + "#2" # Run Whitelist self.topLevelTask.setInputRunWhitelist([2]) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) files = wmbs.validFiles(self.dbs.getFileBlock(block)[block]['Files']) self.assertEqual(len(files), GlobalParams.numOfFilesPerBlock()) def testDuplicateFileInsert(self): # using default wmspec block = self.dataset + "#1" wmbs = self.createWMBSHelperWithTopTask(self.wmspec, block) wmbs.topLevelFileset.loadData() numOfFiles = len(wmbs.topLevelFileset.files) # check initially inserted files. dbsFiles = self.dbs.getFileBlock(block)[block]['Files'] self.assertEqual(numOfFiles, len(dbsFiles)) firstFileset = wmbs.topLevelFileset wmbsDao = wmbs.daofactory(classname = "Files.InFileset") numOfFiles = len(wmbsDao.execute(firstFileset.id)) self.assertEqual(numOfFiles, len(dbsFiles)) # use the new spec with same inputdataset block = self.dataset + "#1" wmspec = self.createWMSpec("TestSpec1") dbs = self.getDBS(wmspec) wmbs = self.createWMBSHelperWithTopTask(wmspec, block) # check duplicate insert dbsFiles = dbs.getFileBlock(block)[block]['Files'] numOfFiles = wmbs.addFiles(dbs.getFileBlock(block)[block]) self.assertEqual(numOfFiles, 0) secondFileset = wmbs.topLevelFileset wmbsDao = wmbs.daofactory(classname = "Files.InFileset") numOfFiles = len(wmbsDao.execute(secondFileset.id)) self.assertEqual(numOfFiles, len(dbsFiles)) self.assertNotEqual(firstFileset.id, secondFileset.id) def testParentage(self): """ TODO: add the parentage test. 1. check whether parent files are created in wmbs. 2. check parent files are associated to child. 3. When 2 specs with the same input data (one with parent processing, one without it) is inserted, if one without parent processing inserted first then the other with parent processing insert, it still needs to create parent files although child files are duplicate """ pass def testMCFakeFileInjection(self): """Inject fake Monte Carlo files into WMBS""" self.setupMCWMSpec() mask = Mask(FirstRun = 12, FirstLumi = 1234, FirstEvent = 12345, LastEvent = 999995, LastLumi = 12345, LastRun = 12) # add sites that would normally be added by operator via resource_control locationDAO = self.daoFactory(classname = "Locations.New") ses = [] for site in ['T2_XX_SiteA', 'T2_XX_SiteB']: locationDAO.execute(siteName = site, seName = self.siteDB.cmsNametoSE(site)) ses.append(self.siteDB.cmsNametoSE(site)) wmbs = self.createWMBSHelperWithTopTask(self.wmspec, None, mask) subscription = wmbs.topLevelSubscription self.assertEqual(1, subscription.exists()) fileset = subscription['fileset'] self.assertEqual(1, fileset.exists()) fileset.loadData() # need to refresh from database self.assertEqual(len(fileset.files), 1) self.assertEqual(len(fileset.parents), 0) self.assertFalse(fileset.open) file = list(fileset.files)[0] self.assertEqual(file['events'], mask['LastEvent'] - mask['FirstEvent'] + 1) # inclusive range self.assertEqual(file['merged'], False) # merged files get added to dbs self.assertEqual(len(file['parents']), 0) #file.loadData() self.assertEqual(sorted(file['locations']), sorted(ses)) self.assertEqual(len(file.getParentLFNs()), 0) self.assertEqual(len(file.getRuns()), 1) run = file.getRuns()[0] self.assertEqual(run.run, mask['FirstRun']) self.assertEqual(run.lumis[0], mask['FirstLumi']) self.assertEqual(run.lumis[-1], mask['LastLumi']) self.assertEqual(len(run.lumis), mask['LastLumi'] - mask['FirstLumi'] + 1)