Esempio n. 1
0
def changepswd():
    current_user = get_jwt_identity()

    pipeline = Pipeline(request)
    pipeline.add(ensureJson)
    pipeline.add(ensureParam, [request, 'username'])
    pipeline.add(ensureParam, [request, 'oripswd'])
    pipeline.add(ensureParam, [request, 'newpswd'])

    broken, retvs = pipeline.run()
    if broken:
        return retvs

    _, username, oripswd, newpswd = retvs

    sess = DBSession()
    user = sess.query(User).filter_by(username=username).first()

    if not user or not cmparePswd(
            oripswd, user.password) or not user.id == current_user:
        return jsonify({"msg": "Bad username or password"}), 401

    user.setPassword(newpswd)
    sess.commit()

    invalidate(get_raw_jwt())
    return jsonify(msg="Change password successfully, please relogin"), 200
Esempio n. 2
0
def actor(url, options=None):

    mlock = moduleLock(wait=False, silent=True)
    if mlock(): return
    if userLock('actor'): return

    up = componentInfo(soft=['mcm'])
    if not up.check(): return

    # CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()
    WC = wtcClient()
    WI = wtcInfo()
    JC = JIRAClient()

    action_list = WC.get_actions()
    if action_list is None:
        print "Not able to load action list"
        sendLog('actor', 'Not able to load action list', level='critical')
        return

    if options.actions:
        action_list = json.loads(open(options.actions).read())

    print json.dumps(action_list, indent=2)
    if not action_list:
        print "EMPTY!"
        return

    wf_list = action_list.keys()
    print json.dumps(sorted(wf_list), indent=2)
    if options.spec:
        wf_list = [wf for wf in wf_list if options.spec in wf]

    max_per_round = UC.get('max_per_round').get('actor', None)
    if max_per_round:
        random.shuffle(wf_list)
        wf_list = wf_list[:max_per_round]

    for wfname in wf_list:
        print '-' * 100
        print "Looking at", wfname, "for recovery options"

        to_clone = False
        to_acdc = False
        to_force = False
        to_hold = False
        something_to_do = False
        tasks = action_list[wfname].get('Parameters', None)
        to_acdc = action_list[wfname].get('Action', None) == 'acdc'
        to_clone = action_list[wfname].get('Action', None) == 'clone'
        to_force = action_list[wfname].get(
            'Action', None) == 'special' and action_list[wfname].get(
                'Parameters', {}).get('action', None) in ['by-pass', 'bypass']
        to_hold = action_list[wfname].get(
            'Action', None) == 'special' and action_list[wfname].get(
                'Parameters', {}).get('action', None) in ['onhold', 'on-hold']

        if not to_acdc and not to_clone and not to_force and not to_hold:
            sendLog(
                'actor',
                'Action submitted for something other than acdc, clone, bypass or hold for workflow %s'
                % wfname,
                level='critical')
            print json.dumps(action_list[wfname], indent=2)
            continue

        if not tasks and to_acdc:
            sendLog('actor',
                    'Empty action submitted for workflow %s' % wfname,
                    level='critical')
            print "Moving on. Parameters is blank for " + wfname
            continue

        wfi = workflowInfo(url, wfname)

        recover = True
        message_to_ops = ""
        message_to_user = ""

        #===========================================================
        if to_clone and options.do:
            print "Let's try kill and clone: "
            wfi.sendLog('actor', 'Going to clone %s' % wfname)
            comment = ""
            if 'comment' in tasks: comment = ", reason: " + tasks['comment']
            wfi.sendLog(
                'actor',
                "invalidating the workflow by traffic controller %s" % comment)

            #Reject all workflows in the family
            inv_results = invalidate(url,
                                     wfi,
                                     only_resub=False,
                                     with_output=True)
            all_good = all(inv_results)
            if all_good:
                wfi.sendLog('actor', "%s and children are rejected" % wfname)
            else:
                wfi.sendLog('actor',
                            "Failed to reject the request and dependents")
                sendLog('actor',
                        'Failed to reject the familly of %s' % wfname,
                        level='critical')
                continue

            cloned = None
            try:
                cloned = singleClone(url, wfname, tasks, comment, options.do)
            except Exception as e:
                sendLog(
                    'actor',
                    'Failed to create clone for %s! Check logs for more information. Action will need to be resubmitted.'
                    % wfname,
                    level='critical')
                wfi.sendLog('actor', 'Failed to create clone for %s!' % wfname)
                print str(e)
                ##let's not remove the action other the workflow goes to "trouble" and the WTC cannot set the action again
            if not cloned:
                recover = False
                wfi.sendLog('actor', 'Failed to create clone for %s!' % wfname)
                sendLog('actor',
                        'Failed to create clone for %s!' % wfname,
                        level='critical')

            else:
                wfi.sendLog('actor',
                            "Workflow %s cloned into %s" % (wfname, cloned))
                ## set to trouble for swift replacement
                for wfo in session.query(Workflow).filter(
                        Workflow.name == wfname).all():
                    wfo.status = 'trouble'
                session.commit()
#===========================================================
        elif to_force:
            wfi.sendLog(
                'actor',
                'Force-completing from workflow traffic controler request')
            WI.add(action='force',
                   keyword=wfname,
                   user=action_list[wfname].get('user', 'unified'))
        elif to_hold:
            wfi.sendLog('actor',
                        'Holding on workflow traffic controler request')
            WI.add(action='hold',
                   keyword=wfname,
                   user=action_list[wfname].get('user', 'unified'))
#===========================================================
        elif to_acdc:
            if 'AllSteps' in tasks:
                allTasksDefaults = tasks['AllSteps']
                tasks.pop('AllSteps')
                for setting in allTasksDefaults:
                    for task in tasks:
                        if setting in tasks[task]:
                            tasks[task][setting] = allTasksDefaults[setting]
                        else:
                            tasks[task].append(
                                {setting: allTasksDefaults[setting]})
            print "Tasks is "
            print json.dumps(tasks, indent=2)

            all_tasks = wfi.getAllTasks()

            ## need a way to verify that this is the first round of ACDC, since the second round will have to be on the ACDC themselves

            try:
                WMErr = wfi.getWMErrors()
#               print WMErr
            except:
                sendLog(
                    'actor',
                    'Cannot create ACDCS for %s because WMErr cannot be reached.'
                    % wfname,
                    level='critical')
                continue
            if not WMErr:
                wfi.sendLog('actor', 'WMErrors is blank for %s.' % wfname)
                print "FYI getWMErrors is blank. Presumably there are only unreported errors"
#                continue

            try:
                where_to_run, missing_to_run, missing_to_run_at = wfi.getRecoveryInfo(
                )
                print "Where to run = "
                print where_to_run
                if not where_to_run:
                    sendLog(
                        'actor',
                        'Cannot create ACDCS for %s because recovery info cannot be found.'
                        % wfname,
                        level='critical')
                    continue
            except:
                sendLog(
                    'actor',
                    'Cannot create ACDCS for %s because recovery info cannot be found.'
                    % wfname,
                    level='critical')
                print "Moving on. Cannot access recovery info for " + wfname
                continue
            if not where_to_run:
                sendLog(
                    'actor',
                    'Cannot create ACDCS for %s because site list cannot be found.'
                    % wfname,
                    level='critical')
                print "Moving on. where to run is blank"
                continue

            message_to_ops = ""
            message_to_user = ""

            num_tasks_to_recover = 0

            if WMErr:
                for task in WMErr:
                    if 'LogCollect' in task: continue
                    if 'Cleanup' in task: continue
                    if not 'jobfailed' in WMErr[task]:
                        continue
                    else:
                        num_tasks_to_recover += 1
#                print "Task to recover: " + task

            if not num_tasks_to_recover:
                print "\tno error for", wfname
#            recover = False

            if 'LheInputFiles' in wfi.request and wfi.request['LheInputFiles']:
                ## we do not try to recover pLHE
                sendLog(
                    'actor',
                    'Cannot create ACDCS for %s because it is a pLHE workflow.'
                    % wfname,
                    level='critical')
                print "We don't try to recover pLHE. Moving on."
                recover = False
        #            sendEmail('cannot submit action', '%s is a pLHE workflow. We do not try to recover pLHE'%wfname)

#        if wfi.request['RequestType'] in ['ReReco']:
#            recover= False
#            print 'cannot submit action. ReReco'
#   sendEmail('cannot submit action', '%s is request type ReReco'%wfname)

            recovering = set()
            for task in tasks:
                assign_to_sites = set()
                print "Task names is " + task
                fulltaskname = '/' + wfname + '/' + task
                print "Full task name is " + fulltaskname
                print where_to_run.keys()
                wrong_task = False
                for task_info in all_tasks:
                    if fulltaskname == task_info.pathName:
                        if task_info.taskType not in [
                                'Processing', 'Production', 'Merge'
                        ]:
                            wrong_task = True
                            wfi.sendLog(
                                'actor',
                                "Skipping task %s because the taskType is %s. Can only ACDC Processing, Production, or Merge tasks"
                                % (fulltaskname, task_info.taskType))
                if not fulltaskname in where_to_run.keys():
                    wrong_task = True
                    wfi.sendLog(
                        'actor',
                        "Skipping task %s because there is no acdc doc for it anyways."
                        % (fulltaskname))
                if wrong_task:
                    continue
                print tasks[task]
                actions = tasks[task]
                for action in actions:
                    if action.startswith('sites'):
                        if type(actions[action]) != list:
                            assign_to_sites = [SI.SE_to_CE(actions[action])]
                        else:
                            assign_to_sites = list(
                                set([
                                    SI.SE_to_CE(site)
                                    for site in actions[action]
                                ]))
#                    if action.startswith('mem') and actions[action] != "" and actions[action] != 'Same' and wfi.request['RequestType'] in ['TaskChain']:
#                        recover = False;
#                        print  "Skipping %s for now until Allie fixes memory parameter for TaskChain ACDCs."%wfname
#                        wfi.sendLog('actor',"Skipping %s for now until Allie fixes memory parameter for TaskChain ACDCs."%wfname)
                if not 'sites' in actions:
                    assign_to_sites = list(
                        set([
                            SI.SE_to_CE(site)
                            for site in where_to_run[fulltaskname]
                        ]))
                    print "Found", sorted(
                        assign_to_sites
                    ), "as sites where to run the ACDC at, from the acdc doc of ", wfname
                print "Going to run at", sorted(assign_to_sites)
                if recover:
                    print "Initiating recovery"
                    acdc = singleRecovery(url,
                                          fulltaskname,
                                          wfi.request,
                                          actions,
                                          do=options.do)
                    if not acdc:
                        if options.do:
                            if recovering:
                                print wfname + " has been partially ACDC'ed. Needs manual attention."
                                sendLog(
                                    'actor',
                                    "%s has had %s/%s recoveries %s only" %
                                    (wfname, len(recovering),
                                     num_tasks_to_recover, list(recovering)),
                                    level='critical')
                                wfi.sendLog(
                                    'actor',
                                    "%s has had %s/%s recoveries %s only" %
                                    (wfname, len(recovering),
                                     num_tasks_to_recover, list(recovering)))
                                break
                            else:
                                print wfname + " failed recovery once"
                                recover = False
                                break
                        else:
                            print "no action to take further"
                            #                        sendLog('recoveror', "ACDC for %s can be done automatically"% wfname, level='critical')
                            continue

                    else:  #ACDC was made correctly. Now we have to assign it.
                        wfi.sendLog(
                            'actor',
                            'ACDC created for task %s. Actions taken \n%s' %
                            (fulltaskname, json.dumps(actions)))
                        jira_comment = "%s created ACDC for task %s with action %s" % (
                            action_list[wfname].get('user', 'unified'),
                            task.split('/')[-1],
                            json.dumps(actions),
                        )
                        reason = action_list[wfname].get('Reason', None)
                        if reason:
                            jira_comment += '\ndue to: %s' % (reason)

                        #team = wfi.request['Teams'][0]
                        team = 'production'
                        parameters = {
                            'SiteWhitelist': sorted(assign_to_sites),
                            'AcquisitionEra': wfi.acquisitionEra(),
                            'ProcessingString': wfi.processingString(),
                            'MergedLFNBase': wfi.request['MergedLFNBase'],
                            'ProcessingVersion':
                            wfi.request['ProcessingVersion'],
                        }
                        ## hackery for ACDC merge assignment
                        if wfi.request[
                                'RequestType'] == 'TaskChain' and 'Merge' in task.split(
                                    '/')[-1]:
                            parameters['AcquisitionEra'] = None
                            parameters['ProcessingString'] = None

                ## xrootd setttings on primary and secondary
                        if 'xrootd' in actions:
                            if actions['xrootd'] == 'enabled':
                                print "Going to assign via xrootd"
                                parameters['TrustSitelists'] = True
                            elif actions['xrootd'] == 'disabled':
                                parameters['TrustSitelists'] = False
                        elif ('TrustSitelists' in wfi.request
                              and wfi.request['TrustSitelists'] == 'true'):
                            parameters['TrustSitelists'] = True
                        else:
                            parameters['TrustSitelists'] = False

                        if 'secondary' in actions:
                            if actions['secondary'] == 'enabled':
                                print 'Enabling reading the secondary input via xrootd'
                                parameters['TrustPUSitelists'] = True
                            elif actions['secondary'] == 'disabled':
                                parameters['TrustPUSitelists'] = False
                            #in case secondary is blank or not set to enabled or disabled
                            elif 'TrustPUSitelists' in wfi.request and wfi.request[
                                    'TrustPUSitelists']:
                                parameters['TrustPUSitelists'] = True
                        elif 'TrustPUSitelists' in wfi.request and wfi.request[
                                'TrustPUSitelists']:
                            parameters['TrustPUSitelists'] = True

                        if options.ass:
                            print "really doing the assignment of the ACDC", acdc
                            parameters['execute'] = True
                            #wfi.sendLog('actor',"%s  was assigned for recovery"% acdc)
                        else:
                            print "no assignment done with this ACDC", acdc
                            sendLog('actor',
                                    "%s needs to be assigned" % (acdc),
                                    level='critical')
                            wfi.sendLog(
                                'actor',
                                "%s needs to be assigned by hand" % (acdc))
                            continue

#                       print parameters
                        result = reqMgrClient.assignWorkflow(
                            url, acdc, team, parameters)
                        if not result:
                            print acdc, "was not assigned"
                            sendLog('actor',
                                    "%s failed to be assigned" % (acdc),
                                    level='critical')
                            wfi.sendLog(
                                'actor',
                                "%s failed to get assigned for recovery" %
                                acdc)
                        else:
                            wfi.sendLog('actor',
                                        "%s was assigned for recovery" % acdc)
                            recovering.add(acdc)

                        #wfi.sendLog('actor',"ACDCs created for %s"%wfname)
                        try:
                            if jira_comment:
                                jiras = JC.find(
                                    {'prepid': wfi.request['PrepID']})
                                if len(jiras) == 1:
                                    ## put a comment on the single corresponding ticket
                                    JC.comment(jiras[0].key, jira_comment)
                                    JC.progress(jiras[0].key)
                        except Exception as e:
                            print "failed with JIRA"
                            print str(e)

        #===========================================================

        if recover and options.do:
            r = WC.remove_action(wfname)
            if not r:
                sendLog(
                    'actor',
                    'not able to remove the action, interlocking the module',
                    level='critical')
                os.system('touch %s/actor.failed-%s.lock' %
                          (base_eos_dir, os.getpid()))
                sys.exit(-1)

        ## update the status with recovering removing manual
        for wfo in session.query(Workflow).filter(
                Workflow.name == wfname).all():
            wfo.status = wfo.status.replace('manual', 'recovering')
        session.commit()

        if message_to_user:
            print wfname, "to be notified to user(DUMMY)", message_to_user

        if message_to_ops:
            print 'message'
            #sendEmail( "notification in recoveror" , message_to_ops, destination=['*****@*****.**'])
        #            sendLog('recoveror',message_to_ops,level='warning')

    return
Esempio n. 3
0
def rejector(url, specific, options=None):

    up = componentInfo(soft=['wtc', 'jira'])
    #if not up.check(): return

    if specific and specific.startswith('/'):
        ## this is for a dataset
        print setDatasetStatus(specific, 'INVALID')
        return

    if options.filelist:
        wfs = []
        for line in filter(None, open(options.filelist).read().split('\n')):
            print line
            wfs.extend(
                session.query(Workflow).filter(
                    Workflow.name.contains(line)).all())
    elif specific:
        wfs = session.query(Workflow).filter(
            Workflow.name.contains(specific)).all()
        if not wfs:
            batches = batchInfo().content()
            for bname in batches:
                if specific == bname:
                    for pid in batches[bname]:
                        b_wfs = getWorkflowById(url, pid)
                        for wf in b_wfs:
                            wfs.append(
                                session.query(Workflow).filter(
                                    Workflow.name == wf).first())
                    break
    else:
        wfs = session.query(Workflow).filter(
            Workflow.status == 'assistance-clone').all()
        #wfs.extend( session.query(Workflow).filter(Workflow.status == 'assistance-reject').all())
        ## be careful then on clone case by case
        options.clone = True
        print "not supposed to function yet"
        return

    print len(wfs), "to reject"

    if len(wfs) > 1:
        print "\n".join([wfo.name for wfo in wfs])
        answer = raw_input('Reject these')
        if not answer.lower() in ['y', 'yes']:
            return

    for wfo in wfs:
        #wfo = session.query(Workflow).filter(Workflow.name == specific).first()
        if not wfo:
            print "cannot reject", spec
            return
        wfi = workflowInfo(url, wfo.name)

        comment = ""
        if options.comments: comment = ", reason: " + options.comments
        if options.keep:
            wfi.sendLog(
                'rejector',
                'invalidating the workflow by unified operator%s' % comment)
        else:
            wfi.sendLog(
                'rejector',
                'invalidating the workflow and outputs by unified operator%s' %
                comment)

        results = invalidate(url,
                             wfi,
                             only_resub=True,
                             with_output=(not options.keep))

        if all(results):
            print wfo.name, "rejected"
            if options and options.clone:
                wfo.status = 'trouble'
                session.commit()
                schema = wfi.getSchema()
                schema['Requestor'] = os.getenv('USER')
                schema['Group'] = 'DATAOPS'
                schema['OriginalRequestName'] = wfo.name
                if 'ProcessingVersion' in schema:
                    schema['ProcessingVersion'] = int(
                        schema['ProcessingVersion']
                    ) + 1  ## dubious str->int conversion
                else:
                    schema['ProcessingVersion'] = 2
                for k in schema.keys():
                    if k.startswith('Team'):
                        schema.pop(k)
                    if k.startswith('checkbox'):
                        schema.pop(k)

                ## a few tampering of the original request
                if options.Memory:
                    if schema['RequestType'] == 'TaskChain':
                        it = 1
                        while True:
                            t = 'Task%d' % it
                            it += 1
                            if t in schema:
                                schema[t]['Memory'] = options.Memory
                            else:
                                break
                    else:
                        schema['Memory'] = options.Memory

                if options.short_task and schema['RequestType'] == 'TaskChain':
                    translate = {}
                    it = 1
                    while True:
                        tt = 'Task%d' % it
                        if tt in schema:
                            tname = schema[tt]['TaskName']
                            ntname = 'T%d' % it
                            translate[tname] = ntname
                            it += 1
                            schema[tt]['TaskName'] = ntname
                            if 'InputTask' in schema[tt]:
                                itname = schema[tt]['InputTask']
                                schema[tt]['InputTask'] = translate[itname]
                        else:
                            break
                    for k in schema.get('ProcessingString', {}).keys():
                        schema['ProcessingString'][
                            translate[k]] = schema['ProcessingString'].pop(k)
                    for k in schema.get('AcquisitionEra', {}).keys():
                        schema['AcquisitionEra'][
                            translate[k]] = schema['AcquisitionEra'].pop(k)

                if options.Multicore:
                    ## to do : set it properly in taskchains
                    if schema['RequestType'] == 'TaskChain':
                        tasks, set_to = options.Multicore.split(
                            ':') if ':' in options.Multicore else (
                                "", options.Multicore)
                        set_to = int(set_to)
                        tasks = tasks.split(',') if tasks else ['Task1']
                        it = 1
                        while True:
                            tt = 'Task%d' % it
                            it += 1
                            if tt in schema:
                                tname = schema[tt]['TaskName']
                                if tname in tasks or tt in tasks:
                                    mem = schema[tt]['Memory']
                                    mcore = schema[tt].get('Multicore', 1)
                                    factor = (set_to / float(mcore))
                                    fraction_constant = 0.4
                                    mem_per_core_c = int(
                                        (1 - fraction_constant) * mem /
                                        float(mcore))
                                    print "mem per core", mem_per_core_c
                                    print "base mem", mem
                                    ## adjusting the parameter in the clone
                                    schema[tt]['Memory'] += (
                                        set_to - mcore) * mem_per_core_c
                                    schema[tt]['Multicore'] = set_to
                                    schema[tt]['TimePerEvent'] /= factor
                            else:
                                break
                    else:
                        schema['Multicore'] = options.Multicore
                if options.deterministic:
                    if schema['RequestType'] == 'TaskChain':
                        schema['Task1']['DeterministicPileup'] = True
                if options.EventsPerJob:
                    if schema['RequestType'] == 'TaskChain':
                        schema['Task1']['EventsPerJob'] = options.EventsPerJob
                    else:
                        schema['EventsPerJob'] = options.EventsPerJob
                if options.EventAwareLumiBased:
                    schema['SplittingAlgo'] = 'EventAwareLumiBased'
                if options.TimePerEvent:
                    schema['TimePerEvent'] = options.TimePerEvent

                if options.ProcessingString:
                    schema['ProcessingString'] = options.ProcessingString
                if options.AcquisitionEra:
                    schema['AcquisitionEra'] = options.AcquisitionEra
                if options.runs:
                    schema['RunWhitelist'] = map(int, options.runs.split(','))
                if options.PrepID:
                    schema['PrepID'] = options.PrepID

                if schema['RequestType'] == 'TaskChain' and options.no_output:
                    ntask = schema['TaskChain']
                    for it in range(1, ntask - 1):
                        schema['Task%d' % it]['KeepOutput'] = False
                    schema['TaskChain'] = ntask - 1
                    schema.pop('Task%d' % ntask)

                if options.priority:
                    schema['RequestPriority'] = options.priority

                ## update to the current priority
                schema['RequestPriority'] = wfi.request['RequestPriority']

                ## drop shit on the way to reqmgr2
                schema = reqMgrClient.purgeClonedSchema(schema)

                print "submitting"
                if (options.to_stepchain
                        and (schema['RequestType'] == 'TaskChain')):
                    ## transform the schema into StepChain schema
                    print "Transforming a TaskChain into a StepChain"
                    mcore = 0
                    mem = 0
                    schema['RequestType'] = 'StepChain'
                    schema['StepChain'] = schema.pop('TaskChain')
                    schema['SizePerEvent'] = 0
                    schema['TimePerEvent'] = 0
                    step = 1
                    s_n = {}
                    while True:
                        if 'Task%d' % step in schema:
                            sname = 'Step%d' % step
                            schema[sname] = schema.pop('Task%d' % step)
                            tmcore = schema[sname].pop('Multicore')
                            tmem = schema[sname].pop('Memory')
                            if mcore and tmcore != mcore:
                                wfi.sendLog(
                                    'rejector',
                                    'the conversion to stepchain encoutered different value of Multicore %d != %d'
                                    % (tmcore, mcore))
                                sendLog(
                                    'rejector',
                                    'the conversion of %s to stepchain encoutered different value of Multicore %d != %d'
                                    % (wfo.name, tmcore, mcore),
                                    level='critical')
                            mcore = max(mcore, tmcore)
                            mem = max(mem, tmem)
                            schema[sname]['StepName'] = schema[sname].pop(
                                'TaskName')
                            s_n[schema[sname]['StepName']] = sname
                            if 'InputTask' in schema[sname]:
                                schema[sname]['InputStep'] = schema[sname].pop(
                                    'InputTask')
                            eff = 1.
                            up_s = sname
                            while True:
                                ## climb up a step. supposedely already all converted
                                up_s = s_n.get(
                                    schema[up_s].get('InputStep', None), None)
                                if up_s:
                                    ## multiply with the efficiency
                                    eff *= schema[up_s].get(
                                        'FilterEfficiency', 1.)
                                else:
                                    ## or stop there
                                    break

                            if not 'KeepOutput' in schema[sname]:
                                ## this is a weird translation capability. Absence of keepoutput in step means : keep the output. while in TaskChain absence means : drop
                                schema[sname]['KeepOutput'] = False
                            schema['TimePerEvent'] += eff * schema[sname].pop(
                                'TimePerEvent')
                            schema['SizePerEvent'] += eff * schema[sname].pop(
                                'SizePerEvent')
                            step += 1
                        else:
                            break
                    schema['Multicore'] = mcore
                    schema['Memory'] = mem
                print json.dumps(schema, indent=2)
                newWorkflow = reqMgrClient.submitWorkflow(url, schema)
                if not newWorkflow:
                    msg = "Error in cloning {}".format(wfo.name)
                    print(msg)
                    wfi.sendLog('rejector', msg)

                    # Get the error message
                    time.sleep(5)
                    data = reqMgrClient.requestManagerPost(
                        url, "/reqmgr2/data/request", schema)
                    wfi.sendLog('rejector', data)

                    print json.dumps(schema, indent=2)
                    return
                print newWorkflow

                data = reqMgrClient.setWorkflowApproved(url, newWorkflow)
                print data
                wfi.sendLog(
                    'rejector', 'Cloned into %s by unified operator %s' %
                    (newWorkflow, comment))
                #wfi.notifyRequestor('Cloned into %s by unified operator %s'%( newWorkflow, comment ),do_batch=False)
            else:
                wfo.status = 'trouble' if options.set_trouble else 'forget'
                wfi.notifyRequestor('Rejected by unified operator %s' %
                                    (comment),
                                    do_batch=False)
                session.commit()

        else:
            msg = "Error in rejecting {}: {}".format(wfo.name, results)
            print(msg)
            wfi.sendLog('rejector', msg)
Esempio n. 4
0
def invalidator(url, invalid_status='INVALID'):
    use_mcm = True
    up = componentInfo(soft=['wtc','jira'])
    if not up.check(): return
    mcm = McMClient(dev=False)

    invalids = mcm.getA('invalidations',query='status=announced')
    if not invalids: return

    print len(invalids),"Object to be invalidated"
    text_to_batch = defaultdict(str)
    text_to_request = defaultdict(str)
    for invalid in invalids:
        acknowledge= False
        pid = invalid['prepid']
        batch_lookup = invalid['prepid']
        text = ""
        if invalid['type'] == 'request':
            wfn = invalid['object']
            print "need to invalidate the workflow",wfn
            wfo = session.query(Workflow).filter(Workflow.name == wfn).first()
            if wfo:
                ## set forget of that thing (although checkor will recover from it)
                print "setting the status of",wfo.status,"to forget"
                wfo.status = 'forget'
                session.commit()
            else:
                ## do not go on like this, do not acknoledge it
                print wfn,"is set to be rejected, but we do not know about it yet"
                #continue
            wfi = workflowInfo(url, wfn)
            success = "not rejected"
            ## to do, we should find a way to reject the workflow and any related acdc
            successes = invalidate(url, wfi, only_resub=True, with_output=False)
            wfi.sendLog('invalidator',"rejection is performed from McM invalidations request")
            acknowledge= all(successes)

            text = "The workflow %s (%s) was rejected due to invalidation in McM" % ( wfn, pid )
            batch_lookup = wfn ##so that the batch id is taken as the one containing the workflow name
        elif invalid['type'] == 'dataset':
            dataset = invalid['object']

            if '?' in dataset: continue
            if 'None' in dataset: continue
            if 'None-' in dataset: continue
            if 'FAKE-' in dataset: continue

            print "setting",dataset,"to",invalid_status
            success = setDatasetStatus(dataset , invalid_status )
            if success:
                acknowledge= True
                text = "The dataset %s (%s) was set INVALID due to invalidation in McM" % ( dataset, pid )
            else:
                msg = "Could not invalidate {}. Please consider contacting data management team for manual intervention.".format(dataset)
                print(msg)
                sendLog('invalidator', msg, level='critical')
        else:
            print "\t\t",invalid['type']," type not recognized"

        if acknowledge:
            ## acknoldge invalidation in mcm, provided we can have the api
            print "acknowledgment to mcm"
            ackno_url = '/restapi/invalidations/acknowledge/%s'%( invalid['_id'] )
            print "at",ackno_url
            mcm.get(ackno_url)
            # prepare the text for batches
            batches = []
            batches.extend(mcm.getA('batches',query='contains=%s'%batch_lookup))
            batches = filter(lambda b : b['status'] in ['announced','done','reset'], batches)
            if len(batches):
                bid = batches[-1]['prepid']
                print "batch nofication to",bid
                text_to_batch[bid] += text+"\n\n"
            # prepare the text for requests
            text_to_request[pid] += text+"\n\n"

    for bid,text in text_to_batch.items():    
        if not text: continue
        text += '\n This is an automated message'
        mcm.put('/restapi/batches/notify',{ "notes" : text, "prepid" : bid})
        pass
    for pid,text in text_to_request.items():
        if not text: continue
        text += '\n This is an automated message'
        mcm.put('/restapi/requests/notify',{ "message" : text, "prepids" : [pid]})
def invalidator(url, invalid_status='INVALID'):
    use_mcm = True
    up = componentInfo(soft=['wtc'])
    if not up.check(): return
    mcm = McMClient(dev=False)

    invalids = mcm.getA('invalidations', query='status=announced')
    if not invalids: return

    print len(invalids), "Object to be invalidated"
    text_to_batch = defaultdict(str)
    text_to_request = defaultdict(str)
    for invalid in invalids:
        acknowledge = False
        pid = invalid['prepid']
        batch_lookup = invalid['prepid']
        text = ""
        if invalid['type'] == 'request':
            wfn = invalid['object']
            print "need to invalidate the workflow", wfn
            wfo = session.query(Workflow).filter(Workflow.name == wfn).first()
            if wfo:
                ## set forget of that thing (although checkor will recover from it)
                print "setting the status of", wfo.status, "to forget"
                wfo.status = 'forget'
                session.commit()
            else:
                ## do not go on like this, do not acknoledge it
                print wfn, "is set to be rejected, but we do not know about it yet"
                #continue
            wfi = workflowInfo(url, wfn)
            success = "not rejected"
            ## to do, we should find a way to reject the workflow and any related acdc
            successes = invalidate(url,
                                   wfi,
                                   only_resub=True,
                                   with_output=False)
            wfi.sendLog(
                'invalidator',
                "rejection is performed from McM invalidations request")
            acknowledge = all(successes)

            text = "The workflow %s (%s) was rejected due to invalidation in McM" % (
                wfn, pid)
            batch_lookup = wfn  ##so that the batch id is taken as the one containing the workflow name
        elif invalid['type'] == 'dataset':
            dataset = invalid['object']

            if '?' in dataset: continue
            if 'None' in dataset: continue
            if 'None-' in dataset: continue
            if 'FAKE-' in dataset: continue

            print "setting", dataset, "to", invalid_status
            success = setDatasetStatus(dataset, invalid_status)
            if success:
                acknowledge = True
                text = "The dataset %s (%s) was set INVALID due to invalidation in McM" % (
                    dataset, pid)
            else:
                print "invalidation of", dataset, "did not go so well"
        else:
            print "\t\t", invalid['type'], " type not recognized"

        if acknowledge:
            ## acknoldge invalidation in mcm, provided we can have the api
            print "acknowledgment to mcm"
            ackno_url = '/restapi/invalidations/acknowledge/%s' % (
                invalid['_id'])
            print "at", ackno_url
            mcm.get(ackno_url)
            # prepare the text for batches
            batches = []
            batches.extend(
                mcm.getA('batches', query='contains=%s' % batch_lookup))
            batches = filter(
                lambda b: b['status'] in ['announced', 'done', 'reset'],
                batches)
            if len(batches):
                bid = batches[-1]['prepid']
                print "batch nofication to", bid
                text_to_batch[bid] += text + "\n\n"
            # prepare the text for requests
            text_to_request[pid] += text + "\n\n"

    for bid, text in text_to_batch.items():
        if not text: continue
        text += '\n This is an automated message'
        mcm.put('/restapi/batches/notify', {"notes": text, "prepid": bid})
        pass
    for pid, text in text_to_request.items():
        if not text: continue
        text += '\n This is an automated message'
        mcm.put('/restapi/requests/notify', {
            "message": text,
            "prepids": [pid]
        })
Esempio n. 6
0
def logout():
    invalidate(get_raw_jwt())
    return jsonify(result=True, msg="Successfully logged out"), 200
Esempio n. 7
0
def rejector(url, specific, options=None):

    
    up = componentInfo(soft=['wtc','jira'])
    if not up.check(): return

    if specific and specific.startswith('/'):
        ## this is for a dataset
        print setDatasetStatus(specific, 'INVALID')
        return

    if options.filelist:
        wfs = []
        for line in filter(None, open(options.filelist).read().split('\n')):
            print line
            wfs.extend( session.query(Workflow).filter(Workflow.name.contains(line)).all())
    elif specific:
        wfs = session.query(Workflow).filter(Workflow.name.contains(specific)).all()
        if not wfs:
            batches = batchInfo().content()
            for bname in batches:
                if specific == bname:
                    for pid in batches[bname]:
                        b_wfs = getWorkflowById(url, pid)
                        for wf in b_wfs:
                            wfs.append( session.query(Workflow).filter(Workflow.name == wf).first())
                    break
    else:
        wfs = session.query(Workflow).filter(Workflow.status == 'assistance-clone').all()
        #wfs.extend( session.query(Workflow).filter(Workflow.status == 'assistance-reject').all())
        ## be careful then on clone case by case
        options.clone = True
        print "not supposed to function yet"
        return 

    print len(wfs),"to reject"

    if len(wfs)>1:
        print "\n".join( [wfo.name for wfo in wfs] )
        answer = raw_input('Reject these')
        if not answer.lower() in ['y','yes']:
            return
        
    for wfo in wfs:
        #wfo = session.query(Workflow).filter(Workflow.name == specific).first()
        if not wfo:
            print "cannot reject",spec
            return
        wfi = workflowInfo(url, wfo.name)

        comment=""
        if options.comments: comment = ", reason: "+options.comments
        if options.keep: 
            wfi.sendLog('rejector','invalidating the workflow by unified operator%s'%comment)
        else:
            wfi.sendLog('rejector','invalidating the workflow and outputs by unified operator%s'%comment)

        results = invalidate(url, wfi, only_resub=True, with_output= (not options.keep))

        if all(results):
            print wfo.name,"rejected"
            if options and options.clone:
                wfo.status = 'trouble'
                session.commit()                
                schema = wfi.getSchema()
                schema['Requestor'] = os.getenv('USER')
                schema['Group'] = 'DATAOPS'
                schema['OriginalRequestName'] = wfo.name
                if 'ProcessingVersion' in schema:
                    schema['ProcessingVersion'] = int(schema['ProcessingVersion'])+1 ## dubious str->int conversion
                else:
                    schema['ProcessingVersion']=2
                for k in schema.keys():
                    if k.startswith('Team'):
                        schema.pop(k)
                    if k.startswith('checkbox'):
                        schema.pop(k)

                ## a few tampering of the original request
                if options.Memory:
                    if schema['RequestType'] == 'TaskChain':
                        it=1
                        while True:
                            t = 'Task%d'%it
                            it+=1
                            if t in schema:
                                schema[t]['Memory'] = options.Memory
                            else:
                                break
                    else:
                        schema['Memory'] = options.Memory
                        
                if options.Multicore:
                    ## to do : set it properly in taskchains
                    if schema['RequestType'] == 'TaskChain':
                        tasks,set_to = options.Multicore.split(':') if ':' in options.Multicore else ("",options.Multicore)
                        set_to = int(set_to)
                        tasks = tasks.split(',') if tasks else ['Task1']
                        it = 1 
                        while True:
                            tt = 'Task%d'% it
                            it+=1
                            if tt in schema:
                                tname = schema[tt]['TaskName']
                                if tname in tasks or tt in tasks:
                                    mem = schema[tt]['Memory']
                                    mcore = schema[tt].get('Multicore',1)
                                    factor = (set_to / float(mcore))
                                    fraction_constant = 0.4
                                    mem_per_core_c = int((1-fraction_constant) * mem / float(mcore))
                                    print "mem per core", mem_per_core_c
                                    print "base mem", mem
                                    ## adjusting the parameter in the clone
                                    schema[tt]['Memory'] += (set_to-mcore)*mem_per_core_c
                                    schema[tt]['Multicore'] = set_to
                                    schema[tt]['TimePerEvent'] /= factor
                            else:
                                break
                    else:
                        schema['Multicore'] = options.Multicore
                if options.deterministic:
                    if schema['RequestType'] == 'TaskChain':
                        schema['Task1']['DeterministicPileup']  = True
                if options.EventsPerJob:
                    if schema['RequestType'] == 'TaskChain':
                        schema['Task1']['EventsPerJob'] = options.EventsPerJob
                    else:
                        schema['EventsPerJob'] = options.EventsPerJob
                if options.EventAwareLumiBased:
                    schema['SplittingAlgo'] = 'EventAwareLumiBased'
                if options.TimePerEvent:
                    schema['TimePerEvent'] = options.TimePerEvent

                if options.ProcessingString:
                    schema['ProcessingString'] = options.ProcessingString
                if options.AcquisitionEra:
                    schema['AcquisitionEra'] = options.AcquisitionEra
                if options.runs:
                    schema['RunWhitelist'] = map(int,options.runs.split(','))
                if options.PrepID:
                    schema['PrepID'] =options.PrepID

                if schema['RequestType'] == 'TaskChain' and options.no_output:
                    ntask = schema['TaskChain']
                    for it in range(1,ntask-1):
                        schema['Task%d'%it]['KeepOutput'] = False
                    schema['TaskChain'] = ntask-1
                    schema.pop('Task%d'%ntask)

                if options.priority:
                    schema['RequestPriority'] = options.priority

                ## update to the current priority
                schema['RequestPriority'] = wfi.request['RequestPriority']

                ## drop shit on the way to reqmgr2
                schema = reqMgrClient.purgeClonedSchema( schema )

                print "submitting"
                if (options.to_stepchain and (schema['RequestType']=='TaskChain')):
                    ## transform the schema into StepChain schema
                    print "Transforming a TaskChain into a StepChain"
                    mcore = 0
                    mem = 0
                    schema['RequestType'] = 'StepChain'
                    schema['StepChain'] = schema.pop('TaskChain')
                    schema['SizePerEvent'] = 0
                    schema['TimePerEvent'] = 0
                    step=1
                    s_n = {}
                    while True:
                        if 'Task%d'%step in schema:
                            sname = 'Step%d'%step
                            schema[sname] = schema.pop('Task%d'%step)
                            tmcore = schema[sname].pop('Multicore')
                            tmem = schema[sname].pop('Memory')
                            if mcore and tmcore != mcore:
                                wfi.sendLog('rejector','the conversion to stepchain encoutered different value of Multicore %d != %d'%( tmcore, mcore))
                                sendLog('rejector','the conversion of %s to stepchain encoutered different value of Multicore %d != %d'%( wfo.name, tmcore, mcore), level='critical')
                            mcore = max(mcore, tmcore)
                            mem = max(mem, tmem)
                            schema[sname]['StepName'] = schema[sname].pop('TaskName')
                            s_n[ schema[sname]['StepName'] ] = sname
                            if 'InputTask' in schema[sname]:
                                schema[sname]['InputStep'] = schema[sname].pop('InputTask')
                            eff = 1.
                            up_s = sname
                            while True:
                                ## climb up a step. supposedely already all converted
                                up_s = s_n.get(schema[up_s].get('InputStep',None),None)
                                if up_s:
                                    ## multiply with the efficiency
                                    eff *= schema[up_s].get('FilterEfficiency',1.)
                                else:
                                    ## or stop there
                                    break

                            if not 'KeepOutput' in schema[sname]:
                                ## this is a weird translation capability. Absence of keepoutput in step means : keep the output. while in TaskChain absence means : drop
                                schema[sname]['KeepOutput'] = False
                            schema['TimePerEvent'] += eff*schema[sname].pop('TimePerEvent')
                            schema['SizePerEvent'] += eff*schema[sname].pop('SizePerEvent')
                            step+=1
                        else:
                            break
                    schema['Multicore'] = mcore
                    schema['Memory'] = mem
                print json.dumps( schema, indent=2 )
                newWorkflow = reqMgrClient.submitWorkflow(url, schema)
                if not newWorkflow:
                    msg = "Error in cloning {}".format(wfo.name)
                    print(msg)
                    wfi.sendLog('rejector',msg)
                          
                    # Get the error message
                    time.sleep(5)
                    data = reqMgrClient.requestManagerPost(url, "/reqmgr2/data/request", schema)
                    wfi.sendLog('rejector',data)
                    
                    print json.dumps( schema, indent=2 )
                    return 
                print newWorkflow

                data = reqMgrClient.setWorkflowApproved(url, newWorkflow)
                print data
                wfi.sendLog('rejector','Cloned into %s by unified operator %s'%( newWorkflow, comment ))
                wfi.notifyRequestor('Cloned into %s by unified operator %s'%( newWorkflow, comment ),do_batch=False)
            else:
                wfo.status = 'trouble' if options.set_trouble else 'forget' 
                wfi.notifyRequestor('Rejected by unified operator %s'%( comment ),do_batch=False)
                session.commit()

        else:
            msg = "Error in rejecting {}: {}".format(wfo.name,results)
            print(msg)
            wfi.sendLog('rejector',msg)
Esempio n. 8
0
def actor(url,options=None):
    
    mlock = moduleLock(wait=False ,silent=True)
    if mlock(): return
    if userLock('actor'): return
    
    up = componentInfo(soft=['mcm'])
    if not up.check(): return
    
   # CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()
    WC = wtcClient()
    WI = wtcInfo()
    JC = JIRAClient()

    action_list = WC.get_actions()
    if action_list is None:
        print "Not able to load action list"
        sendLog('actor','Not able to load action list', level='critical')
        return

    if options.actions:
        action_list = json.loads(open(options.actions).read())

    print json.dumps( action_list, indent=2)
    if not action_list:
        print "EMPTY!"
        return

    wf_list = action_list.keys()
    print json.dumps( sorted( wf_list), indent=2)
    if options.spec:
        wf_list = [wf for wf in wf_list if options.spec in wf]

    max_per_round = UC.get('max_per_round').get('actor', None)
    if max_per_round:
        random.shuffle( wf_list )
        wf_list = wf_list[:max_per_round]

    for wfname in wf_list:
        print '-'*100
        print "Looking at",wfname,"for recovery options"

        to_clone = False
        to_acdc = False
        to_force = False
        to_hold = False
        something_to_do = False
        tasks = action_list[wfname].get( 'Parameters' , None)
        to_acdc = action_list[wfname].get( 'Action', None) == 'acdc'
        to_clone = action_list[wfname].get( 'Action', None) == 'clone'
        to_force = action_list[wfname].get( 'Action', None) == 'special' and action_list[wfname].get( 'Parameters' ,{}).get('action',None) in ['by-pass', 'bypass']
        to_hold = action_list[wfname].get( 'Action', None) == 'special' and action_list[wfname].get( 'Parameters' ,{}).get('action',None) in ['onhold','on-hold']

        if not to_acdc and not to_clone and not to_force and not to_hold:
            sendLog('actor','Action submitted for something other than acdc, clone, bypass or hold for workflow %s'%wfname,level='critical')
            print json.dumps( action_list[wfname] , indent=2)
            continue

        if not tasks and to_acdc:
            sendLog('actor','Empty action submitted for workflow %s'%wfname,level='critical')
            print "Moving on. Parameters is blank for " + wfname
            continue

        wfi = workflowInfo(url, wfname)

        recover = True
        message_to_ops = ""
        message_to_user = ""

#===========================================================
        if to_clone and options.do:
            print "Let's try kill and clone: "
            wfi.sendLog('actor','Going to clone %s'%wfname)
            comment=""
            if 'comment' in tasks: comment = ", reason: "+ tasks['comment']
            wfi.sendLog('actor',"invalidating the workflow by traffic controller %s"%comment)

            #Reject all workflows in the family
            inv_results = invalidate(url, wfi, only_resub=False, with_output=True)
            all_good = all(inv_results)
            if all_good:
                wfi.sendLog('actor',"%s and children are rejected"%wfname)
            else:
                wfi.sendLog('actor',"Failed to reject the request and dependents")
                sendLog('actor','Failed to reject the familly of %s'% wfname, level='critical')
                continue

            cloned = None
            try:  
                cloned =  singleClone(url, wfname, tasks, comment, options.do)
            except Exception as e:
                sendLog('actor','Failed to create clone for %s! Check logs for more information. Action will need to be resubmitted.'%wfname,level='critical')
                wfi.sendLog('actor','Failed to create clone for %s!'%wfname)
                print str(e)
                ##let's not remove the action other the workflow goes to "trouble" and the WTC cannot set the action again
            if not cloned:
                recover = False
                wfi.sendLog('actor','Failed to create clone for %s!'%wfname)
                sendLog('actor','Failed to create clone for %s!'%wfname,level='critical')

            else:
                wfi.sendLog('actor',"Workflow %s cloned into %s"%(wfname, cloned))
                ## set to trouble for swift replacement
                for wfo in  session.query(Workflow).filter(Workflow.name == wfname).all():
                    wfo.status = 'trouble'
                session.commit()
#===========================================================
        elif to_force:
            wfi.sendLog('actor','Force-completing from workflow traffic controler request')
            WI.add(action='force', keyword = wfname, user = action_list[wfname].get( 'user', 'unified'))
        elif to_hold:
            wfi.sendLog('actor','Holding on workflow traffic controler request')
            WI.add(action='hold', keyword = wfname, user = action_list[wfname].get( 'user', 'unified'))                   
#===========================================================
        elif to_acdc:
            if 'AllSteps' in tasks:
                allTasksDefaults = tasks['AllSteps']
                tasks.pop('AllSteps')
                for setting in allTasksDefaults:
                    for task in tasks:
                        if setting in tasks[task]:
                            tasks[task][setting] = allTasksDefaults[setting]
                        else:
                                tasks[task].append({setting:allTasksDefaults[setting]})
            print "Tasks is "
            print json.dumps(tasks, indent=2)

            all_tasks = wfi.getAllTasks()

            ## need a way to verify that this is the first round of ACDC, since the second round will have to be on the ACDC themselves
        
            try:
                WMErr = wfi.getWMErrors()
#               print WMErr
            except:
                sendLog('actor','Cannot create ACDCS for %s because WMErr cannot be reached.'%wfname,level='critical')
                continue
            if not WMErr:
                wfi.sendLog('actor','WMErrors is blank for %s.'%wfname)
                print "FYI getWMErrors is blank. Presumably there are only unreported errors"
#                continue

            try:
                where_to_run, missing_to_run,missing_to_run_at =  wfi.getRecoveryInfo()
                print "Where to run = "
                print where_to_run
                if not where_to_run:
                    sendLog('actor','Cannot create ACDCS for %s because recovery info cannot be found.'%wfname,level='critical')
                    continue
            except:
                sendLog('actor','Cannot create ACDCS for %s because recovery info cannot be found.'%wfname,level='critical')
                print "Moving on. Cannot access recovery info for " + wfname
                continue
            if not where_to_run:
                sendLog('actor','Cannot create ACDCS for %s because site list cannot be found.'%wfname,level='critical')
                print "Moving on. where to run is blank"
                continue

            message_to_ops = ""
            message_to_user = ""
        
            num_tasks_to_recover = 0
        
            if WMErr:
                for task in WMErr:
                    if 'LogCollect' in task: continue
                    if 'Cleanup' in task: continue
                    if not 'jobfailed' in WMErr[task]:
                        continue
                    else:
                        num_tasks_to_recover += 1
#                print "Task to recover: " + task

            if not num_tasks_to_recover:
                print "\tno error for",wfname
#            recover = False
        
            if 'LheInputFiles' in wfi.request and wfi.request['LheInputFiles']:
            ## we do not try to recover pLHE
                sendLog('actor','Cannot create ACDCS for %s because it is a pLHE workflow.'%wfname,level='critical')
                print "We don't try to recover pLHE. Moving on."
                recover = False
        #            sendEmail('cannot submit action', '%s is a pLHE workflow. We do not try to recover pLHE'%wfname)


#        if wfi.request['RequestType'] in ['ReReco']:
#            recover= False
#            print 'cannot submit action. ReReco'
        #   sendEmail('cannot submit action', '%s is request type ReReco'%wfname)

            recovering = set()
            for task in tasks:
                assign_to_sites = set()
                print "Task names is " + task
                fulltaskname = '/' + wfname + '/' + task
                print "Full task name is " + fulltaskname
                print where_to_run.keys()
                wrong_task = False
                for task_info in all_tasks:
                    if fulltaskname == task_info.pathName:
                        if task_info.taskType not in ['Processing','Production','Merge']:
                            wrong_task= True
                            wfi.sendLog('actor', "Skipping task %s because the taskType is %s. Can only ACDC Processing, Production, or Merge tasks"%( fulltaskname, task_info.taskType))
                if not fulltaskname in where_to_run.keys():
                    wrong_task= True
                    wfi.sendLog('actor', "Skipping task %s because there is no acdc doc for it anyways."%(fulltaskname))
                if wrong_task:
                    continue
                print tasks[task]
                actions = tasks[task]
                for action in actions:
                    if action.startswith('sites'):
                        if type(actions[action]) != list:
                            assign_to_sites=[SI.SE_to_CE(actions[action])]
                        else:
                            assign_to_sites=list(set([SI.SE_to_CE(site) for site in actions[action]]))
#                    if action.startswith('mem') and actions[action] != "" and actions[action] != 'Same' and wfi.request['RequestType'] in ['TaskChain']:
#                        recover = False;
#                        print  "Skipping %s for now until Allie fixes memory parameter for TaskChain ACDCs."%wfname
#                        wfi.sendLog('actor',"Skipping %s for now until Allie fixes memory parameter for TaskChain ACDCs."%wfname)
                if not 'sites' in actions:
                    assign_to_sites = list(set([SI.SE_to_CE(site) for site in where_to_run[fulltaskname]]))
                    print "Found",sorted(assign_to_sites),"as sites where to run the ACDC at, from the acdc doc of ",wfname
                print "Going to run at",sorted(assign_to_sites)
                if recover:
                    print "Initiating recovery"
                    acdc = singleRecovery(url, fulltaskname, wfi.request, actions, do = options.do)
                    if not acdc:
                        if options.do:
                            if recovering:
                                print wfname + " has been partially ACDC'ed. Needs manual attention."
                                sendLog('actor', "%s has had %s/%s recoveries %s only"%( wfname, len(recovering), num_tasks_to_recover, list(recovering)), level='critical')
                                wfi.sendLog('actor', "%s has had %s/%s recoveries %s only"%( wfname, len(recovering), num_tasks_to_recover, list(recovering)))
                                break
                            else:
                                print wfname + " failed recovery once"
                                recover = False
                                break
                        else:
                            print "no action to take further"
#                        sendLog('recoveror', "ACDC for %s can be done automatically"% wfname, level='critical')
                            continue

                    else: #ACDC was made correctly. Now we have to assign it.
                        wfi.sendLog('actor','ACDC created for task %s. Actions taken \n%s'%(fulltaskname,json.dumps(actions)))
                        jira_comment = "%s created ACDC for task %s with action %s"%( 
                            action_list[wfname].get( 'user', 'unified'),
                            task.split('/')[-1] , 
                            json.dumps(actions),
                        )
                        reason = action_list[wfname].get( 'Reason', None)
                        if reason:
                            jira_comment += '\ndue to: %s'%(reason)

                        #team = wfi.request['Teams'][0]
                        team = 'production'
                        parameters={
                        'SiteWhitelist' : sorted(assign_to_sites),
                        'AcquisitionEra' : wfi.acquisitionEra(),
                        'ProcessingString' :  wfi.processingString(),
                        'MergedLFNBase' : wfi.request['MergedLFNBase'],
                        'ProcessingVersion' : wfi.request['ProcessingVersion'],
                        }
                    ## hackery for ACDC merge assignment
                        if wfi.request['RequestType'] == 'TaskChain' and 'Merge' in task.split('/')[-1]:
                            parameters['AcquisitionEra'] = None
                            parameters['ProcessingString'] = None

                ## xrootd setttings on primary and secondary 
                        if 'xrootd' in actions:
                            if actions['xrootd'] == 'enabled':
                                print "Going to assign via xrootd"
                                parameters['TrustSitelists'] = True
                            elif actions['xrootd'] == 'disabled':
                                parameters['TrustSitelists'] = False
                        elif ('TrustSitelists' in wfi.request and wfi.request['TrustSitelists']=='true'):
                            parameters['TrustSitelists'] = True
                        else:
                            parameters['TrustSitelists'] = False

                        if 'secondary' in actions:
                            if actions['secondary'] == 'enabled':
                                print 'Enabling reading the secondary input via xrootd'
                                parameters['TrustPUSitelists'] = True
                            elif actions['secondary'] == 'disabled':
                                parameters['TrustPUSitelists'] = False
                            #in case secondary is blank or not set to enabled or disabled
                            elif 'TrustPUSitelists' in wfi.request and wfi.request['TrustPUSitelists']:
                                parameters['TrustPUSitelists'] = True
                        elif 'TrustPUSitelists' in wfi.request and wfi.request['TrustPUSitelists']:
                            parameters['TrustPUSitelists'] = True

                        if options.ass:
                            print "really doing the assignment of the ACDC",acdc
                            parameters['execute']=True
                            #wfi.sendLog('actor',"%s  was assigned for recovery"% acdc)
                        else:
                            print "no assignment done with this ACDC",acdc
                            sendLog('actor',"%s needs to be assigned"%(acdc), level='critical')
                            wfi.sendLog('actor',"%s needs to be assigned by hand"%(acdc))
                            continue

 #                       print parameters
                        result = reqMgrClient.assignWorkflow(url, acdc, team, parameters)
                        if not result:
                            print acdc,"was not assigned"
                            sendLog('actor',"%s failed to be assigned"%(acdc), level='critical')
                            wfi.sendLog('actor',"%s failed to get assigned for recovery"% acdc)
                        else:
                            wfi.sendLog('actor',"%s was assigned for recovery"% acdc)
                            recovering.add( acdc )

                        #wfi.sendLog('actor',"ACDCs created for %s"%wfname)
                        try:
                            if jira_comment:
                                jiras = JC.find({'prepid' : wfi.request['PrepID']})
                                if len(jiras)==1:
                                    ## put a comment on the single corresponding ticket
                                    JC.comment(jiras[0].key, jira_comment)
                                    JC.progress(jiras[0].key)
                        except Exception as e:
                            print "failed with JIRA"
                            print str(e)
                        
    
        #===========================================================
        
        
        if recover and options.do:
            r = WC.remove_action(wfname)
            if not r:
                sendLog('actor','not able to remove the action, interlocking the module', level='critical')
                os.system('touch %s/actor.failed-%s.lock'%( base_eos_dir, os.getpid() ))
                sys.exit(-1)

        ## update the status with recovering removing manual
        for wfo in  session.query(Workflow).filter(Workflow.name == wfname).all():
            wfo.status = wfo.status.replace('manual','recovering')
        session.commit()                        

        if message_to_user:
            print wfname,"to be notified to user(DUMMY)",message_to_user

        if message_to_ops:
            print 'message'
            #sendEmail( "notification in recoveror" , message_to_ops, destination=['*****@*****.**'])
        #            sendLog('recoveror',message_to_ops,level='warning')



    return