Ejemplo n.º 1
0
def changeStatus(id_report,status):

    if status not in [1,2,3,4]:
        return make_response(jsonify( { 'error': 'Unknown status' } ), 400)

    rm = ReportModel()
    um = UserModel()

    # get the current report
    report_prev = rm.getReport(id_report)

    #get user of report
    user = um.getUser(idUser=report_prev["id_user"])
    # get the previous report again with the current language
    report_prev = rm.getReport(id_report,user["language"])
    # change the status
    rm.changeStatus(id_report,status)
    report = rm.getReport(id_report,user["language"])
    #send the email
    body = tr("Report status changed email",user["language"])
    body = body % ( report_prev["status_str"].decode("utf-8"), report["status_str"].decode("utf-8"),app.config["cdnUrl"] + "#?c=Report/detail/"+str(id_report))
    utils.sendEmail([report["user_email"]],tr("Report status change subject",user["language"]), body)

    if report_prev["id_report_status"] == 1 and (status==2 or status==4):
        # send email to manager mpa
        mm = MPASModel()
        for lang in app.config["languages"]:
            emails = map(lambda x: x["email"],mm.getMPAManagersEmailLanguage(report["id_mpa"] ,lang))

            if len(emails)>0:
                body = tr("New report added MPA",lang)
                body = body % ( report["mpa"], app.config["cdnUrl"] + "#?c=Report/detail/"+str(id_report))
                utils.sendEmail(emails,tr("New report added in %s [MPA]",lang) % report["mpa"], body)

    return jsonify( {"result" : "done" })
Ejemplo n.º 2
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    def emailCertifiers(self, name, toolName, levelDescription, certifierName):
        emailAddress = "*****@*****.**"
        msg = f"{name} was just certified as {levelDescription} on {toolName} by {certifierName}!!"

        utils.sendEmail("Shop Certifiers", emailAddress, "New Certification",
                        msg)
        return ''
Ejemplo n.º 3
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def send_bug(request):
    if request.method == 'POST':
        data = {k: v[0] if len(v) == 1 else v for k, v in request.POST.lists()}
        sendEmail(txt='bugEmail.txt',
                  html='bugEmail.html',
                  data=data,
                  title='[Bug Report]' + data['subject'],
                  to=['*****@*****.**'])
Ejemplo n.º 4
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    def addUser(self, dbConnection, user, password, barcode, role):
        hashedPassword = pwd_context.hash(password)
        dbConnection.execute(
            '''INSERT INTO accounts(user, password, barcode, role) VALUES(?,?,?,?)''',
            (user, hashedPassword, barcode, role.getValue()))
        emailAddress = self.getEmail(dbConnection, user)

        utils.sendEmail(
            'TFI Ops', '*****@*****.**', 'New User',
            f'User {user} <{emailAddress}> added with roles : {role}')
Ejemplo n.º 5
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def _warningEmail(subject):
    if libs.ec2_utils.is_ec2():
        try:
            email = {}
            email['from'] = 'Stamped <*****@*****.**>'
            email['to'] = '*****@*****.**'
            email['subject'] = subject
            email['body'] = logs.getHtmlFormattedLog()
            utils.sendEmail(email, format='html')
        except Exception as e:
            logs.warning('UNABLE TO SEND EMAIL: %s' % (e,))
Ejemplo n.º 6
0
    def sendFailLogEmail(self):
        if len(self.__fails) == 0:
            return

        stack_info = get_stack()
        stack_name = 'localhost'
        node_name = 'localhost'
        if stack_info is not None:
            stack_name = stack_info.instance.stack
            node_name = stack_info.instance.name

        output = '<html>'
        output += "<h3>RateLimiter Fail Limit reached on %s</h3>" % stack_name
        output += "<p>On stack '%s' instance '%s'.</p>" % (stack_name, node_name)
        output += "<p><i>There were %s failed requests to service '%s' within the last %s seconds</p></i>" %  \
                  (self.fail_limit, self.__service_name, self.fail_period)
        back_online = time.strftime('%m/%d/%Y %H:%M:%S', time.localtime(self.blackout_start + self.blackout_wait)) # Timestamp
        output += "<p>Waiting for %s seconds.  Service will be active again at: %s</p>" % (self.blackout_wait, back_online)

        output += '<h3>Fail Log</h3>'

        output += '<table border=1 cellpadding=5>'
        output += '<tr>'
        labels = ['Timestamp', 'Url', 'Body', 'Headers', 'Code', 'Content']
        for label in labels:
            output += '<td style="font-weight:bold">%s</td>' % label
        output += '</tr>'

        for fail in self.__fails:
            output += '<tr>'
            output += '<td valign=top>%s</td>' % time.strftime('%m/%d/%Y %H:%M:%S', time.localtime(fail.timestamp)) # Timestamp
            output += '<td valign=top>%s</td>' % fail.url
            output += '<td valign=top>%s</td>' % fail.body
            output += '<td valign=top>%s</td>' % fail.headers
            output += '<td valign=top>%s</td>' % fail.status_code
            output += '<td valign=top>%s</td>' % escape(fail.content)
            output += '</tr>'

        output += '</table>'
        output += '</html>'

        try:
            email = {}
            email['from'] = 'Stamped <*****@*****.**>'
            email['to'] = '*****@*****.**'
            email['subject'] = "%s RateLimiter '%s' fail limit reached" % (stack_name, self.__service_name)
            email['body'] = output
            utils.sendEmail(email, format='html')
        except Exception as e:
            print('UNABLE TO SEND EMAIL: %s' % e)

        return output
Ejemplo n.º 7
0
 def changeRole(self, dbConnection, barcode, newRole):
     dbConnection.execute(
         '''UPDATE accounts SET role = ? WHERE (barcode = ?)''',
         (newRole.getValue(), barcode))
     data = dbConnection.execute(
         '''SELECT user FROM accounts WHERE barcode = ?''',
         (barcode, )).fetchone()
     if data:
         emailAddress = self.getEmail(dbConnection, data[0])
         utils.sendEmail(
             'TFI Ops', '*****@*****.**', 'Role change for user',
             f'User {data[0]} <{emailAddress}> roles changed to : {newRole}'
         )
Ejemplo n.º 8
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def handleStampedExceptions(e, handlers=None):
    if isinstance(e, StampedHTTPError):
        exceptions =  [(StampedHTTPError, e.code, e.kind, e.msg)]
    elif handlers is not None:
        exceptions = handlers + defaultExceptions
    else:
        exceptions = defaultExceptions

    for (exception, code, kind, msg) in exceptions:
        if isinstance(e, exception):
            logs.warning("%s Error (%s): %s" % (code, kind, msg))
            logs.warning(utils.getFormattedException())
            logs.error(code)

            kind = kind
            if kind is None:
                kind = 'stamped_error'

            message = msg
            if message is None and e.msg is not None:
                message = e.msg

            error = {}
            error['error'] = kind
            if message is not None:
                error['message'] = unicode(message)

            return transformOutput(error, status=code)
    else:
        error = {
            'error' :   'stamped_error',
            'message' : "An error occurred. Please try again later.",
        }
        logs.warning("500 Error: %s" % e)
        logs.warning(utils.getFormattedException())
        logs.error(500)

        # Email dev if a 500 occurs
        if libs.ec2_utils.is_ec2():
            try:
                email = {}
                email['from'] = 'Stamped <*****@*****.**>'
                email['to'] = '*****@*****.**'
                email['subject'] = '%s - 500 Error - %s' % (stampedAPI.node_name, datetime.utcnow().isoformat())
                email['body'] = logs.getHtmlFormattedLog()
                utils.sendEmail(email, format='html')
            except Exception as e:
                logs.warning('UNABLE TO SEND EMAIL: %s')

        return transformOutput(error, status=500)
Ejemplo n.º 9
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    def emailToken(self, dbConnection, username, token):
        emailAddress = self.getEmail(dbConnection, username)

        safe_username = urllib.parse.quote_plus(username)
        print(safe_username, token)

        msg = "Please go to http://tfi.checkmein.site/profile/resetPasswordToken?user="******"&token=" + token + " to reset your password.  If you" + \
            " did not request that you had forgotten " + \
            "your password, then you can safely ignore this e-mail." + \
            " This expires in 24 hours.\n\nThank you,\nTFI"

        utils.sendEmail(username, emailAddress, 'Forgotten Password', msg)
        return ''
Ejemplo n.º 10
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 def stop_recording(e, config):
     """Process the process of recording being stopped"""
     log = logging.getLogger('Conference')
     
     owner = Session.query(ModeratorPin).get(getUnquotedHeader(e, 'Conference-Name'))
     if owner is None:
         log.warning('Error because we could not get owner.')
         Session.remove()
         return
     
     confObj = Session.query(Conference).get(getUnquotedHeader(e, 'Conference-Unique-ID'))
     if confObj is None:
         log.info('Creating a new conference for conference id: %s' % getUnquotedHeader(e, 'Conference-Unique-ID'))
         confObj = Conference(getUnquotedHeader(e, 'Conference-Unique-ID'), parseEventDate(e), unicode(getUnquotedHeader(e, 'Conference-Name')), unicode(getUnquotedHeader(e, 'Conference-Profile-Name')))
         owner.conferences.append(confObj)
         Session.add(confObj)
         Session.flush()
         actionObj = ConferenceAction(unicode(getUnquotedHeader(e, 'Action')), 
                                     unicode(getUnquotedHeader(e, 'Caller-Caller-ID-Name')),
                                     unicode(getUnquotedHeader(e, 'Caller-Caller-ID-Number')),
                                     unicode(getUnquotedHeader(e, 'Conference-Size')),
                                     unicode(getUnquotedHeader(e, 'Member-Type')),
                                     parseEventDate(e),
                                     confObj.id)
         confObj.actions.append(actionObj)
         Session.add(actionObj)
         log.debug('Conference %s has been created. Assigning the pointer.' % getUnquotedHeader(e, 'Conference-Name'))
         
     confObj.recording = os.path.join(config.get('mp3', 'store_to'), getUnquotedHeader(e, 'Path').split('/').pop()[:-3] + 'mp3')
     host = unicode(getUnquotedHeader(e, 'FreeSWITCH-IPv4'))
         
     try:
         try:
             t = Thread(target=postRecordingThread, args=(config, getUnquotedHeader(e, 'Path'), confObj, host, owner))
             t.start()
         except:
             log.exception('Could not run thread and commit to database!')
             Session.remove()
             return
     finally:
         try:
             sendEmail(config, getUnquotedHeader(e, 'Path'), confObj, owner)
             Session.commit()
             Session.remove()
         except Exception, e:
             log.exception('Could not commit to database!')
             Session.rollback()
             Session.remove()
             return
Ejemplo n.º 11
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def sendEmailNow (**ka):  
    ok = u.sendEmail(**ka)        
    if ok and u.config('recordEmails'):
        try:
            m.SentEmail.create (**ka)
        except: # (apiproxy_errors.OverQuotaError, BadValueError):
            logging.exception("Error saving SentEmail in datastore")
Ejemplo n.º 12
0
def recognizeAndReport(recognizer, grayImage, rects, maxDistance,
                       noun='human'):
    for x, y, w, h in rects:
        crop = cv2.equalizeHist(grayImage[y:y+h, x:x+w])
        labelAsInt, distance = recognizer.predict(crop)
        labelAsStr = utils.intToFourChars(labelAsInt)
        #print noun, labelAsStr, distance
        if distance <= maxDistance:
            fromAddr = '*****@*****.**' # TODO: Replace
            toAddrList = ['*****@*****.**'] # TODO: Replace
            ccAddrList = []
            subject = 'Angora Blue'
            message = 'We have sighted the %s known as %s.' % \
                    (noun, labelAsStr)
            login = '******' # TODO: Replace
            password = '******' # TODO: Replace
            # TODO: Replace if not using Gmail.
            smtpServer='smtp.gmail.com:587'
            try:
                problems = utils.sendEmail(
                        fromAddr, toAddrList, ccAddrList, subject,
                        message, login, password, smtpServer)
                if problems:
                    print >> sys.stderr, 'Email problems:', problems
                else:
                    return True
            except socket.gaierror:
                print >> sys.stderr, 'Unable to reach email server'
    return False
Ejemplo n.º 13
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def main():
    result = []
    gevent.joinall([
        gevent.spawn(JDCrawler.run, good, threshold, result)
        for good, threshold in JD_GOODS.items()
    ])
    logger.info("Result: %s" % str(result))
    if result:
        try:
            sendEmail(EMAIL_TO_ADDRS,
                      u'[%s] 京东价格爬取汇总' % time.strftime('%Y-%m-%d'),
                      '\n'.join(result))
        except Exception, e:
            logger.error("Send email failed, error: %s" % str(e))
        else:
            logger.info("Send email success")
Ejemplo n.º 14
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 def __addToBlacklistCount(self, user_id):
     """
     Increments the blacklist counter for a given user, and returns a bool on whether the threshold is hit
     """
     count = self.__blacklist.setdefault(user_id, 0) + 1
     self.__blacklist[user_id] = count
     if (count >= self.__blacklistThreshold):
         text = "Netflix user_id: %s hit the blacklist threshold of %d 403/401 errors." % (user_id, self.__blacklistThreshold)
         logs.info(text)
         msg = {}
         msg['to'] = '*****@*****.**'
         msg['from'] = 'Stamped <*****@*****.**>'
         msg['subject'] = 'Netflix blacklist threshold reached'
         msg['body'] = text
         utils.sendEmail(msg)
         return True
     return False
Ejemplo n.º 15
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def do_alarm():
    global already_sent_sms, already_sent, already_recording, t1_stop, t1

    if not already_sent_sms and CONFIG['send_sms']:
        log.info("  Sending sms through email...")
        sendEmail(CONFIG['email_sms'], CONFIG['email_from_addr'],
                  'Motion detected',
                  'There\'s been movement detected in the house.',
                  CONFIG['email_smtp'], CONFIG['email_smtp_port'],
                  CONFIG['email_user'], CONFIG['email_passwd'])
        already_sent_sms = 1
    # GV sms
    if not already_sent_sms and CONFIG['send_gv_sms']:
        log.info("  Sending sms through GV...")
        sendGVSMS(CONFIG['gv_user'], CONFIG['gv_passwd'], CONFIG['sms_num'],
                  'There\'s been movement detected in the house.')
        already_sent_sms = 1
    # email
    if not already_sent and CONFIG['email_on_motion']:
        log.info("  Sending email...")
        sendEmail(CONFIG['email_send_to'], CONFIG['email_from_addr'],
                  'Motion detected',
                  'There\'s been movement detected in the house.',
                  CONFIG['email_smtp'], CONFIG['email_smtp_port'],
                  CONFIG['email_user'], CONFIG['email_passwd'])

        already_sent = 1
    # record
    if not already_recording and CONFIG['record_on_motion']:
        log.info("  Starting recording!")
        t1_stop = threading.Event()
        t1 = threading.Thread(target=startRecord, args=(
            1,
            t1_stop,
        ))
        t1.start()
        already_recording = 1

    # arm camera
    if CONFIG['arm_camera']:
        armCamera(1)

    # sound alarm
    if CONFIG['sound_alarm']:
        runAlarmCmd(1)
Ejemplo n.º 16
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    def sendFailLogEmail(self):
        if len(self.__fails) == 0:
            return

        output = '<html>'
        output += "<h3>RateLimiter RPC Server Failure on %s</h3>" % self.__stack_name
        output += "<p>On stack '%s' instance '%s'.</p>" % (self.__stack_name, self.__node_name)
        output += "<p><i>There were %s failed requests to the rpc server within the last %s seconds</i></p>" %\
                  (self.__fail_limit, self.__fail_period)
        back_online = time.strftime('%m/%d/%Y %H:%M:%S', time.localtime(self.__blackout_start + self.__blackout_wait)) # Timestamp
        output += "<p>Waiting for %s seconds.  Will use local Rate Limiter service until: %s</p>" % (self.__blackout_wait, back_online)

        output += '<h3>Fail Log</h3>'

        output += '<table border=1 cellpadding=5>'
        output += '<tr>'
        labels = ['Timestamp', 'Exception']
        for label in labels:
            output += '<td style="font-weight:bold">%s</td>' % label
        output += '</tr>'

        for fail in self.__fails:
            output += '<tr>'
            output += '<td valign=top>%s</td>' % time.strftime('%m/%d/%Y %H:%M:%S', time.localtime(fail.timestamp)) # Timestamp
            output += '<td valign=top>%s</td>' % fail.exception
            output += '</tr>'

        output += '</table>'

        output += '</html>'


        try:
            email = {}
            email['from'] = 'Stamped <*****@*****.**>'
            email['to'] = '*****@*****.**'
            email['subject'] = "%s RateLimiter RPC server failure" % self.__stack_name
            email['body'] = output
            utils.sendEmail(email, format='html')
        except Exception as e:
            print('UNABLE TO SEND EMAIL: %s' % e)

        return output
Ejemplo n.º 17
0
    def updatePassword(self, authUserId, password):
        
        account = self._accountDB.getAccount(authUserId)

        # Convert and store new password
        password = auth.convertPasswordForStorage(password)
        self._accountDB.updatePassword(authUserId, password)

        # Remove refresh / access tokens
        self._refreshTokenDB.removeRefreshTokensForUser(authUserId)
        self._accessTokenDB.removeAccessTokensForUser(authUserId)

        # If there is no email address associated with the account, we're done
        if account.email is None:
            return True

        # Send confirmation email
        msg = {}
        msg['to'] = account.email
        msg['from'] = 'Stamped <*****@*****.**>'
        msg['subject'] = 'Stamped: Your Password Has Been Reset'

        try:
            base = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
            path = os.path.join(base, 'alerts', 'templates', 'email_password_reset.html.j2')
            template = open(path, 'r')
        except Exception:
            ### TODO: Add error logging?
            raise
        
        params = {
            'screen_name': account.screen_name, 
            'email_address': account.email,
        }
        msg['body'] = utils.parseTemplate(template, params)

        utils.sendEmail(msg, format='html')

        return True
Ejemplo n.º 18
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def adduser_post():
    if (logging_level > 29):
        print("adding user")

    info = request.json
    if (info is None):
        info = request.form
    username = info['username']  # unique
    password = info['password']
    email = info['email']  # unique

    # Check for uniqueness of username and email in db
    e = db.emails.find_one({'email': email})
    u = db.users.find_one({'username': username})

    if (e is not None or u is not None):  # one or both are not unique
        if json_request():
            return jsonify(status="error", error="Duplicate username"), 500
        return render_template('add_user.html',
                               message="Username already taken")

    # Record the email and username
    db.emails.insert({'email': email})
    db.users.insert({'username': username})

    # Add account info to verification tables
    key = utils.generateKey()
    i = db.verification.insert({
        'username': username,
        'email': email,
        'password': password,
        'key': key
    })

    # Send email verfication
    utils.sendEmail(key, email)
    if json_request():
        return jsonify(status="OK", key=key), 200
    return render_template("verify.html")
Ejemplo n.º 19
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def main():
    log.info("Checking CPU frequency and temperature...")
    t = get_cpu_temperature()
    f = get_cpu_frequency()

    if not all([f, t]):
        log.error(
            "Unable to retrieve frequency/temperature data from DHT22 CPU")
        sys.exit(1)

    if CONFIG['temp_in_fahrenheit']:
        t = (t * (9.0 / 5.0)) + 32

    sys.stdout.write("[%i,%0.1f]" % (f, t))

    log.info("CPU Frequency / Temperature: %i, %0.1f" % (f, t))
    log.info("Checking CPU temperature over threshold: %.1f > %.1f = %s" %
             (t, float(CONFIG['cpu_temp_threshold']),
              t > float(CONFIG['cpu_temp_threshold'])))

    if (t > float(CONFIG['cpu_temp_threshold'])
            and CONFIG['cpu_temp_threshold_alerts']):
        try:
            log.info("Attempting to send GV SMS...")
            sendGVSMS(
                CONFIG['gv_user'], CONFIG['gv_passwd'], CONFIG['sms_num'],
                'CPU Temperature reading of: %0.1f degrees is over threshold!'
                % t)

            log.info("Attempting to send Email...")
            sendEmail(
                CONFIG['email_send_to'], CONFIG['email_from_addr'],
                'CPU Temperature reading on mypihc',
                'CPU Temperature reading of: %0.1f degress is over threshold!'
                % t, CONFIG['email_smtp'], CONFIG['email_smtp_port'],
                CONFIG['email_user'], CONFIG['email_passwd'])
        except Exception, e:
            log.error(str(e))
Ejemplo n.º 20
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def assignor(url, specific=None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    #SI = siteInfo()
    SI = global_SI()
    #NLI = newLockInfo()
    #if not NLI.free() and not options.go: return
    LI = lockInfo()
    if not LI.free() and not options.go: return

    n_assigned = 0
    n_stalled = 0

    wfos = []
    fetch_from = []
    if specific or options.early:
        fetch_from.extend(['considered', 'staging'])
    if specific:
        fetch_from.extend(['considered-tried'])

    if options.early:
        print "Option Early is on"

    fetch_from.extend(['staged'])

    if options.from_status:
        fetch_from = options.from_status.split(',')
        print "Overriding to read from", fetch_from

    for status in fetch_from:
        print "getting wf in", status
        wfos.extend(
            session.query(Workflow).filter(Workflow.status == status).all())
        print len(wfos)

    ## in case of partial, go for fetching a list from json ?
    #if options.partial and not specific:
    #    pass

    dataset_endpoints = json.loads(
        open('%s/dataset_endpoints.json' % monitor_dir).read())
    aaa_mapping = json.loads(
        open('%s/equalizor.json' % monitor_pub_dir).read())['mapping']

    all_stuck = set()
    all_stuck.update(
        json.loads(open('%s/stuck_transfers.json' % monitor_pub_dir).read()))
    all_stuck.update(getAllStuckDataset())

    max_per_round = UC.get('max_per_round').get('assignor', None)
    max_cpuh_block = UC.get('max_cpuh_block')

    ##order by priority instead of random
    if options.early:
        cache = sorted(getWorkflows(url, 'assignment-approved', details=True),
                       key=lambda r: r['RequestPriority'])
        cache = [r['RequestName'] for r in cache]

        def rank(wfn):
            return cache.index(wfn) if wfn in cache else 0

        wfos = sorted(wfos, key=lambda wfo: rank(wfo.name), reverse=True)
        print "10 first", [wfo.name for wfo in wfos[:10]]
        print "10 last", [wfo.name for wfo in wfos[-10:]]
    else:
        random.shuffle(wfos)

    for wfo in wfos:

        if options.limit and (n_stalled + n_assigned) > options.limit:
            break

        if max_per_round and (n_stalled + n_assigned) > max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name, specific.split(','))):
                continue
            #if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo(url, wfo.name)

        if wfh.request['RequestStatus'] in [
                'rejected', 'aborted', 'aborted-completed', 'aborted-archived',
                'rejected-archived'
        ] and wfh.isRelval():
            wfo.status = 'forget'
            session.commit()
            n_stalled += 1
            continue

        if options.priority and int(
                wfh.request['RequestPriority']) < options.priority:
            continue

        options_text = ""
        if options.early: options_text += ", early option is ON"
        if options.partial:
            options_text += ", partial option is ON"
            options_text += ", good fraction is %.2f" % options.good_enough

        wfh.sendLog('assignor',
                    "%s to be assigned%s" % (wfo.name, options_text))

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput, primary, parent, secondary,
         sites_allowed) = wfh.getSiteWhiteList()
        output_tiers = list(
            set([o.split('/')[-1] for o in wfh.request['OutputDatasets']]))

        if not output_tiers:
            n_stalled += 1
            wfh.sendLog('assignor', 'There is no output at all')
            sendLog('assignor',
                    'Workflow %s has no output at all' % (wfo.name),
                    level='critical')
            continue

        is_stuck = (all_stuck & primary)
        if is_stuck:
            wfh.sendLog('assignor',
                        "%s are stuck input" % (','.join(is_stuck)))

        ## check if by configuration we gave it a GO
        no_go = False
        if not wfh.go(log=True) and not options.go:
            no_go = True

        allowed_secondary = {}
        assign_parameters = {}
        check_secondary = (not wfh.isRelval())
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns:
                assign_parameters.update(CI.campaigns[campaign])

            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[
                    campaign]:
                if CI.campaigns[campaign]['secondaries']:
                    allowed_secondary.update(
                        CI.campaigns[campaign]['secondaries'])
                    check_secondary = True
            if campaign in CI.campaigns and 'banned_tier' in CI.campaigns[
                    campaign]:
                banned_tier = list(
                    set(CI.campaigns[campaign]['banned_tier'])
                    & set(output_tiers))
                if banned_tier:
                    no_go = True
                    wfh.sendLog(
                        'assignor', 'These data tiers %s are not allowed' %
                        (','.join(banned_tier)))
                    sendLog('assignor',
                            'These data tiers %s are not allowed' %
                            (','.join(banned_tier)),
                            level='critical')

        if secondary and check_secondary:
            if (set(secondary) & set(allowed_secondary.keys()) !=
                    set(secondary)):
                wfh.sendLog(
                    'assignor', '%s is not an allowed secondary' %
                    (', '.join(set(secondary) -
                               set(allowed_secondary.keys()))))
                sendLog(
                    'assignor',
                    '%s is not an allowed secondary' %
                    (', '.join(set(secondary) -
                               set(allowed_secondary.keys()))),
                    level='critical')
                if not options.go:
                    no_go = True
            ## then get whether there is something more to be done by secondary
            for sec in secondary:
                if sec in allowed_secondary:  # and 'parameters' in allowed_secondary[sec]:
                    assign_parameters.update(allowed_secondary[sec])

        if no_go:
            n_stalled += 1
            ## make a very loud noise if >100k priority stalled
            continue

        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] != 'assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',
                            "setting %s away and skipping" % wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name, wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version = wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor', "cannot decide on version number")
                n_stalled += 1
                wfo.status = 'trouble'
                session.commit()
                continue

        original_sites_allowed = copy.deepcopy(sites_allowed)
        wfh.sendLog('assignor', "Site white list %s" % sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request['Campaign'],
                                       'SecondaryLocation', [])

        blocks = wfh.getBlockWhiteList()
        rwl = wfh.getRunWhiteList()
        if rwl:
            ## augment with run white list
            for dataset in primary:
                blocks = list(set(blocks +
                                  getDatasetBlocks(dataset, runs=rwl)))
        lwl = wfh.getLumiWhiteList()
        if lwl:
            ## augment with lumi white list
            for dataset in primary:
                blocks = list(
                    set(blocks + getDatasetBlocks(dataset, lumis=lwl)))

        wfh.sendLog('assignor', "Allowed %s" % sorted(sites_allowed))
        secondary_locations = None

        primary_aaa = options.primary_aaa
        secondary_aaa = options.secondary_aaa
        do_partial = False  #options.good_enough if options.partial else 0

        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns:
            assign_parameters.update(CI.campaigns[wfh.request['Campaign']])

        if 'primary_AAA' in assign_parameters:
            primary_aaa = primary_aaa or assign_parameters['primary_AAA']
        if 'secondary_AAA' in assign_parameters:
            secondary_aaa = secondary_aaa or assign_parameters['secondary_AAA']
        if 'partial_copy' in assign_parameters:
            ## can this only work if there is a stuck input ? maybe not
            ## this is a number. 0 means no
            print "Could do partial disk copy assignment"
            if is_stuck or options.partial:
                do_partial = assign_parameters['partial_copy']
                wfh.sendLog(
                    'assignor',
                    "Overiding partial copy assignment to %.2f fraction" %
                    do_partial)
                #sendEmail('stuck input to assignment','%s is stuck for assigning %s and going fractional'%(','.join( is_stuck), wfo.name))

        do_partial = options.good_enough if options.partial else do_partial

        for sec in list(secondary):
            if override_sec_location:
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                #sendEmail("tempting to pass sec location check","but we cannot yet IMO")
                #pass

            presence = getDatasetPresence(url, sec)
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [
                site for (site, (there, frac)) in presence.items()
                if frac > 98.
            ]

            if secondary_aaa:
                if not one_secondary_locations:
                    sec_availability = getDatasetBlocksFraction(url, sec)
                    if sec_availability >= 1. and options.go:
                        ## there is at least one copy of each block on disk. We should go ahead and let it go.
                        wfh.sendLog(
                            'assignor',
                            "The secondary %s is available %s times on disk, and usable"
                            % (sec, sec_availability))
                    else:
                        ## not even a copy on disk anywhere !!!!
                        sites_allowed = []  ## will block the assignment
                        wfh.sendLog(
                            'assignor',
                            "The secondary %s is nowhere on disk" % sec)
                #just continue without checking
                continue

            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations == None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(
                    set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [
                site for site in sites_allowed
                if SI.CE_to_SE(site) in one_secondary_locations
            ]

        wfh.sendLog(
            'assignor', "From/after secondary requirement, now Allowed%s" %
            sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy(
            sites_allowed
        )  ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy(sites_allowed)
        sites_with_data = copy.deepcopy(sites_allowed)
        sites_with_any_data = copy.deepcopy(sites_allowed)
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc'  ## by default

        endpoints = set()
        for prim in list(primary):
            if prim in dataset_endpoints:
                print "endpoints from stagor", dataset_endpoints[prim]
                endpoints.update(dataset_endpoints[prim])
            set_lfn = getLFNbase(prim)
            presence = getDatasetPresence(url, prim, only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] = getDatasetBlocksFraction(
                url,
                prim,
                sites=[SI.CE_to_SE(site) for site in sites_allowed],
                only_blocks=blocks)
            if primary_aaa:
                available_fractions[prim] = getDatasetBlocksFraction(
                    url, prim, only_blocks=blocks)

            sites_all_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in [
                    psite for (psite, (there, frac)) in presence.items()
                    if there
                ]
            ]
            if primary_aaa:
                sites_all_data = list(
                    set([
                        SI.SE_to_CE(psite)
                        for (psite, (there, frac)) in presence.items() if there
                    ]))
            sites_with_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in
                [psite for (psite, frac) in presence.items() if frac[1] > 90.]
            ]
            sites_with_any_data = [
                site for site in sites_with_any_data
                if SI.CE_to_SE(site) in presence.keys()
            ]
            if primary_aaa:
                sites_with_any_data = list(
                    set([SI.SE_to_CE(psite) for psite in presence.keys()]))

            wfh.sendLog(
                'assignor', "Holding the data but not allowed %s" % sorted(
                    list(
                        set([
                            se_site for se_site in presence.keys()
                            if not SI.SE_to_CE(se_site) in sites_allowed
                        ]))))
            if primary_locations == None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(
                    set(primary_locations) & set(presence.keys()))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites = []
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in
                    list((set(secondary_locations) & set(primary_locations)) -
                         set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            elif primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in list(
                        set(primary_locations) -
                        set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            else:
                opportunistic_sites = []
            wfh.sendLog(
                'assignor', "We could be running in addition at %s" %
                sorted(opportunistic_sites))
            if any(
                [osite in SI.sites_not_ready
                 for osite in opportunistic_sites]):
                wfh.sendLog(
                    'assignor', "One of the usable site is in downtime %s" % ([
                        osite for osite in opportunistic_sites
                        if osite in SI.sites_not_ready
                    ]))
                down_time = True
                ## should this be send back to considered ?

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted, cpuh = wfh.getNCopies()
        wfh.sendLog('assignor', "we need %s CPUh" % cpuh)
        if cpuh > max_cpuh_block and not options.go:
            #sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog(
                'assignor',
                '%s requires a large numbr of CPUh %s , not assigning, please check with requester'
                % (wfo.name, cpuh),
                level='critical')
            wfh.sendLog(
                'assignor',
                "Requiring a large number of CPUh %s, not assigning" % cpuh)
            continue

        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[
                    wfh.request['Campaign']]:
            copies_needed_from_campaign = CI.campaigns[
                wfh.request['Campaign']]['maxcopies']
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)

        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(
                1, copies_wanted -
                less_copies_than_requested)  # take one out for the efficiency
        else:
            ## find out whether there is a site in the whitelist, that is lacking jobs and reduce to 1 copy needed to get things going
            pass

        wfh.sendLog('assignor',
                    "needed availability fraction %s" % copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        ## default back to white list to original white list with any data
        wfh.sendLog('assignor', "Allowed sites :%s" % sorted(sites_allowed))

        if primary_aaa:
            ## remove the sites not reachable localy if not in having the data
            if not sites_all_data:
                wfh.sendLog('assignor',
                            "Overiding the primary on AAA setting to Off")
                primary_aaa = False
            else:
                aaa_grid = set(sites_all_data)
                for site in list(aaa_grid):
                    aaa_grid.update(aaa_mapping.get(site, []))
                sites_allowed = list(set(initial_sites_allowed) & aaa_grid)
                wfh.sendLog(
                    'assignor', "Selected to read primary through xrootd %s" %
                    sorted(sites_allowed))

        isStoreResults = ('StoreResults' == wfh.request.setdefault(
            'RequestType', None))

        if isStoreResults:
            if 'MergedLFNBase' in wfh.request:
                set_lfn = wfh.request['MergedLFNBase']
            else:
                n_stalled += 1
                wfh.sendLog(
                    'assignor',
                    "Cannot assign StoreResults request because MergedLFN is missing"
                )
                sendLog(
                    'assignor',
                    'Cannot assign StoreResults request because MergedLFN is missing',
                    level='critical')
                continue

        if not primary_aaa:
            if not isStoreResults:
                sites_allowed = sites_with_any_data
            else:
                ## if we are dealing with a StoreResults request, we don't need to check dataset availability and
                ## should use the SiteWhiteList set in the original request
                if 'SiteWhitelist' in wfh.request:
                    sites_allowed = wfh.request['SiteWhitelist']
                else:
                    wfh.sendLog(
                        'assignor',
                        "Cannot assign StoreResults request because SiteWhitelist is missing"
                    )
                    sendLog(
                        'assignor',
                        'Cannot assign StoreResults request because SiteWhitelist is missing',
                        level='critical')
                    n_stalled += 1
                    continue
                available_fractions = {}
            wfh.sendLog('assignor',
                        "Selected for any data %s" % sorted(sites_allowed))

        ### check on endpoints for on-going transfers
        if do_partial:
            if endpoints:
                end_sites = [SI.SE_to_CE(s) for s in endpoints]
                sites_allowed = list(set(sites_allowed + end_sites))
                if down_time and not any(osite in SI.sites_not_ready
                                         for osite in end_sites):
                    print "Flip the status of downtime, since our destinations are good"
                    down_time = False
                print "with added endpoints", sorted(end_sites)
            else:
                print "Cannot do partial assignment without knowin the endpoints"
                n_stalled += 1
                continue

        #if not len(sites_allowed):
        #    if not options.early:
        #        wfh.sendLog('assignor',"cannot be assign with no matched sites")
        #        sendLog('assignor','%s has no whitelist'% wfo.name, level='critical')
        #    n_stalled+=1
        #    continue

        low_pressure = SI.sites_low_pressure(0.4)
        ## if any of the site allowed is low pressure : reduce to 1 copy so that it gets started
        allowed_and_low = sorted(set(low_pressure) & set(sites_allowed))
        if allowed_and_low:
            wfh.sendLog(
                'assignor',
                "The workflow can run at %s under low pressure currently" %
                (','.join(allowed_and_low)))
            copies_wanted = max(1., copies_wanted - 1.)

        if available_fractions and not all([
                available >= copies_wanted
                for available in available_fractions.values()
        ]):
            not_even_once = not all([
                available >= 1. for available in available_fractions.values()
            ])
            above_good = all([
                available >= do_partial
                for available in available_fractions.values()
            ])
            wfh.sendLog(
                'assignor',
                "The input dataset is not available %s times, only %s" %
                (copies_wanted, available_fractions.values()))
            if down_time and not options.go and not options.early:
                wfo.status = 'considered'
                session.commit()
                wfh.sendLog(
                    'assignor',
                    "sending back to considered because of site downtime, instead of waiting"
                )
                #sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                sendLog(
                    'assignor',
                    '%s is not sufficiently available, due to down time of a site in the whitelist. sending back to considered.'
                    % (wfo.name),
                    level='delay')
                n_stalled += 1
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known and not options.limit and not options.go and not options.early and not (
                        do_partial and above_good):
                    wfh.sendLog(
                        'assignor',
                        "cannot be assigned, %s is not sufficiently available.\n %s"
                        % (wfo.name, json.dumps(available_fractions)))
                    #sendEmail( "cannot be assigned","%s is not sufficiently available.\n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append(wfo.name)
                    open('cannot_assign.json',
                         'w').write(json.dumps(known, indent=2))

                if options.early:
                    if wfo.status == 'considered':
                        wfh.sendLog('assignor', "setting considered-tried")
                        wfo.status = 'considered-tried'
                        session.commit()
                    else:
                        print "tried but status is", wfo.status
                if do_partial and above_good:
                    print "Will move on with partial locations"
                else:
                    n_stalled += 1
                    continue

        if not len(sites_allowed):
            if not options.early:
                wfh.sendLog('assignor',
                            "cannot be assign with no matched sites")
                sendLog('assignor',
                        '%s has no whitelist' % wfo.name,
                        level='critical')
            n_stalled += 1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [
                SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])
            ]

        wfh.sendLog('assignor', "Placing the output on %s" % sites_out)
        parameters = {
            'SiteWhitelist': sites_allowed,
            'NonCustodialSites': sites_out,
            'AutoApproveSubscriptionSites': list(set(sites_out)),
            'AcquisitionEra': wfh.acquisitionEra(),
            'ProcessingString': wfh.processingString(),
            'MergedLFNBase': set_lfn,
            'ProcessingVersion': version,
        }

        if primary_aaa:
            parameters['TrustSitelists'] = True
            wfh.sendLog(
                'assignor',
                "Reading primary through xrootd at %s" % sorted(sites_allowed))

        if secondary_aaa:
            parameters['TrustPUSitelists'] = True
            wfh.sendLog(
                'assignor', "Reading secondary through xrootd at %s" %
                sorted(sites_allowed))

        ## plain assignment here
        team = 'production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team
        parameters['Team'] = team

        if lheinput:
            ## throttle reading LHE article
            wfh.sendLog('assignor',
                        'Setting the number of events per job to 500k max')
            parameters['EventsPerJob'] = 500000

        def pick_options(options, parameters):
            ##parse options entered in command line if any
            if options:
                for key in reqMgrClient.assignWorkflow.keys:
                    v = getattr(options, key)
                    if v != None:
                        if type(v) == str and ',' in v:
                            parameters[key] = filter(None, v.split(','))
                        else:
                            parameters[key] = v

        def pick_campaign(assign_parameters, parameters):
            ## pick up campaign specific assignment parameters
            parameters.update(assign_parameters.get('parameters', {}))

        if options.force_options:
            pick_campaign(assign_parameters, parameters)
            pick_options(options, parameters)
        else:
            ## campaign parameters update last
            pick_options(options, parameters)
            pick_campaign(assign_parameters, parameters)

        if not options.test:
            parameters['execute'] = True

        hold_split, split_check = wfh.checkSplitting()
        if hold_split and not options.go:
            if split_check:
                wfh.sendLog(
                    'assignor', 'Holding on to the change in splitting %s' %
                    ('\n\n'.join([str(i) for i in split_check])))
            else:
                wfh.sendLog('assignor', 'Change of splitting is on hold')
            n_stalled += 1
            continue

        if split_check == None or split_check == False:
            n_stalled += 1
            continue
        elif split_check:
            ## operate all recommended changes
            reqMgrClient.setWorkflowSplitting(url, wfo.name, split_check)
            wfh.sendLog(
                'assignor', 'Applying the change in splitting %s' %
                ('\n\n'.join([str(i) for i in split_check])))

        split_check = True  ## bypass completely and use the above

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi) / float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents / (reqJobs * 1.4))
                lumisPerJob = int(eventsPerJob / eventsPerLumi)
                if lumisPerJob == 0:
                    #sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog('assignor',
                            "%s needs to be split by event with %s per job" %
                            (wfo.name, eventsPerJob),
                            level='critical')
                    wfh.sendLog(
                        'assignor',
                        "%s needs to be split by event with %s per job" %
                        (wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl[
                        'events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl[
                        'avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        #sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog('assignor',
                                "%s was assigned with %s lumis/job" %
                                (wfo.name, lumisPerJob),
                                level='critical')
                        wfh.sendLog(
                            'assignor', "%s was assigned with %s lumis/job" %
                            (wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        #sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog(
                            'assignor',
                            "leaving splitting untouched for %s, please check on %s"
                            % (pstring, wfo.name),
                            level='critical')
                        wfh.sendLog(
                            'assignor',
                            "leaving splitting untouched for PU_RD*, please check."
                        )

        if isHEPCloudReady(url) and wfh.isGoodForNERSC():
            parameters['Team'] = 'hepcloud'
            parameters['SiteWhitelist'] = ['T3_US_NERSC']
            if primary:
                parameters['TrustSitelists'] = True
            if secondary:
                parameters['TrustPUSitelists'] = True
            sendEmail("sending work to hepcloud",
                      "pleasse check on %s" % wfh.request['RequestName'],
                      destination=['*****@*****.**'])

        ## make sure to autoapprove all NonCustodialSites
        parameters['AutoApproveSubscriptionSites'] = list(
            set(parameters['NonCustodialSites'] +
                parameters.get('AutoApproveSubscriptionSites', [])))

        result = reqMgrClient.assignWorkflow(
            url, wfo.name, None,
            parameters)  ## team is not relevant anymore here

        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned += 1
                wfh.sendLog(
                    'assignor', "Properly assigned\n%s" %
                    (json.dumps(parameters, indent=2)))
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo(url, wfo.name)
                    (_, prim, _, sec) = new_wfi.getIO()
                    for secure in list(prim) + list(
                            sec) + new_wfi.request['OutputDatasets']:
                        ## lock all outputs
                        LI.lock(secure, reason='assigning')

                except Exception as e:
                    print "fail in locking output"

                    print str(e)
                    sendEmail("failed locking of output", str(e))

            else:
                wfh.sendLog(
                    'assignor',
                    "Failed to assign %s.\n%s \n Please check the logs" %
                    (wfo.name, reqMgrClient.assignWorkflow.errorMessage))
                sendLog('assignor',
                        "Failed to assign %s.\n%s \n Please check the logs" %
                        (wfo.name, reqMgrClient.assignWorkflow.errorMessage),
                        level='critical')
                print "ERROR could not assign", wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor', "Assigned %d Stalled %s" % (n_assigned, n_stalled))
    if n_stalled and not options.go and not options.early:
        sendLog('assignor',
                "%s workflows cannot be assigned. Please take a look" %
                (n_stalled),
                level='critical')
Ejemplo n.º 21
0
def assignor(url, specific=None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = siteInfo()
    NLI = newLockInfo()

    n_assigned = 0
    n_stalled = 0

    wfos = []
    if specific or options.early:
        wfos.extend(
            session.query(Workflow).filter(
                Workflow.status == 'considered').all())
        wfos.extend(
            session.query(Workflow).filter(Workflow.status == 'staging').all())
    if specific:
        wfos.extend(
            session.query(Workflow).filter(
                Workflow.status == 'considered-tried').all())
    wfos.extend(
        session.query(Workflow).filter(Workflow.status == 'staged').all())

    dataset_endpoints = json.loads(
        open('%s/dataset_endpoints.json' % monitor_dir).read())

    max_per_round = UC.get('max_per_round').get('assignor', None)
    max_cpuh_block = UC.get('max_cpuh_block')
    random.shuffle(wfos)
    for wfo in wfos:
        if options.limit and (n_stalled + n_assigned) > options.limit:
            break

        if max_per_round and (n_stalled + n_assigned) > max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name, specific.split(','))):
                continue
            #if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo(url, wfo.name)
        wfh.sendLog('assignor', "%s to be assigned" % wfo.name)

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput, primary, parent, secondary,
         sites_allowed) = wfh.getSiteWhiteList()

        ## check if by configuration we gave it a GO
        no_go = False
        if not wfh.go(log=True) and not options.go:
            n_stalled += 1
            no_go = True

        allowed_secondary = set()
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[
                    campaign]:
                allowed_secondary.update(CI.campaigns[campaign]['secondaries'])
        if (secondary and allowed_secondary) and (
                set(secondary) & allowed_secondary != set(secondary)):
            wfh.sendLog(
                'assignor', '%s is not an allowed secondary' %
                (', '.join(set(secondary) - allowed_secondary)))
            #sendEmail('secondary not allowed','%s is not an allowed secondary'%( ', '.join(set(secondary)-allowed_secondary)))
            sendLog('assignor',
                    '%s is not an allowed secondary' %
                    (', '.join(set(secondary) - allowed_secondary)),
                    level='critical')
            if not options.go:
                n_stalled += 1
                no_go = True

        if no_go:
            continue

        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] != 'assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',
                            "setting %s away and skipping" % wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name, wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version = wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor', "cannot decide on version number")
                n_stalled += 1
                wfo.status = 'trouble'
                session.commit()
                continue

        original_sites_allowed = copy.deepcopy(sites_allowed)
        wfh.sendLog('assignor', "Site white list %s" % sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request['Campaign'],
                                       'SecondaryLocation', [])

        blocks = []
        if 'BlockWhitelist' in wfh.request:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(
                    set(blocks + getDatasetBlocks(
                        dataset, runs=wfh.request['RunWhitelist'])))

        wfh.sendLog('assignor', "Allowed %s" % sorted(sites_allowed))
        secondary_locations = None

        primary_aaa = options.primary_aaa
        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns and 'primary_AAA' in CI.campaigns[
                    wfh.request['Campaign']]:
            primary_aaa = primary_aaa or CI.campaigns[
                wfh.request['Campaign']]['primary_AAA']
        secondary_aaa = options.secondary_aaa
        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns and 'secondary_AAA' in CI.campaigns[
                    wfh.request['Campaign']]:
            secondary_aaa = secondary_aaa or CI.campaigns[
                wfh.request['Campaign']]['secondary_AAA']

        for sec in list(secondary):
            if override_sec_location:
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                sendEmail("tempting to pass sec location check",
                          "but we cannot yet IMO")
                #pass
            if secondary_aaa:
                #just continue without checking
                continue

            presence = getDatasetPresence(url, sec)
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [
                site for (site, (there, frac)) in presence.items()
                if frac > 98.
            ]
            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations == None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(
                    set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [
                site for site in sites_allowed
                if SI.CE_to_SE(site) in one_secondary_locations
            ]

        wfh.sendLog(
            'assignor', "From secondary requirement, now Allowed%s" %
            sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy(
            sites_allowed
        )  ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy(sites_allowed)
        sites_with_data = copy.deepcopy(sites_allowed)
        sites_with_any_data = copy.deepcopy(sites_allowed)
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc'  ## by default
        endpoints = set()
        for prim in list(primary):
            if prim in dataset_endpoints:
                print "endpoints from stagor", dataset_endpoints[prim]
                endpoints.update(dataset_endpoints[prim])
            set_lfn = getLFNbase(prim)
            presence = getDatasetPresence(url, prim, only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] = getDatasetBlocksFraction(
                url,
                prim,
                sites=[SI.CE_to_SE(site) for site in sites_allowed],
                only_blocks=blocks)
            #sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            #sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in [
                    psite for (psite, (there, frac)) in presence.items()
                    if there
                ]
            ]
            sites_with_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in
                [psite for (psite, frac) in presence.items() if frac[1] > 90.]
            ]
            sites_with_any_data = [
                site for site in sites_with_any_data
                if SI.CE_to_SE(site) in presence.keys()
            ]
            wfh.sendLog(
                'assignor', "Holding the data but not allowed %s" % sorted(
                    list(
                        set([
                            se_site for se_site in presence.keys()
                            if not SI.SE_to_CE(se_site) in sites_allowed
                        ]))))
            if primary_locations == None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(
                    set(primary_locations) & set(presence.keys()))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites = []
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in
                    list((set(secondary_locations) & set(primary_locations)) -
                         set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            elif primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in list(
                        set(primary_locations) -
                        set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            else:
                opportunistic_sites = []
            wfh.sendLog(
                'assignor', "We could be running in addition at %s" %
                sorted(opportunistic_sites))
            if any(
                [osite in SI.sites_not_ready
                 for osite in opportunistic_sites]):
                wfh.sendLog(
                    'assignor', "One of the usable site is in downtime %s" % ([
                        osite in SI.sites_not_ready
                        for osite in opportunistic_sites
                    ]))
                down_time = True
                ## should this be send back to considered ?

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted, cpuh = wfh.getNCopies()
        wfh.sendLog('assignor', "we need %s CPUh" % cpuh)
        if cpuh > max_cpuh_block and not options.go:
            #sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog(
                'assignor',
                '%s requires a large numbr of CPUh %s , not assigning, please check with requester'
                % (wfo.name, cpuh),
                level='critical')
            wfh.sendLog(
                'assignor',
                "Requiring a large number of CPUh %s, not assigning" % cpuh)
            continue

        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[
                    wfh.request['Campaign']]:
            copies_needed_from_campaign = CI.campaigns[
                wfh.request['Campaign']]['maxcopies']
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)

        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(
                1, copies_wanted -
                less_copies_than_requested)  # take one out for the efficiency
        else:
            ## find out whether there is a site in the whitelist, that is lacking jobs and reduce to 1 copy needed to get things going
            pass

        wfh.sendLog('assignor',
                    "needed availability fraction %s" % copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        if available_fractions and not all([
                available >= copies_wanted
                for available in available_fractions.values()
        ]):
            not_even_once = not all([
                available >= 1. for available in available_fractions.values()
            ])
            wfh.sendLog(
                'assignor',
                "The input dataset is not available %s times, only %s" %
                (copies_wanted, available_fractions.values()))
            if down_time and not options.go and not options.early:
                wfo.status = 'considered'
                session.commit()
                wfh.sendLog(
                    'assignor',
                    "sending back to considered because of site downtime, instead of waiting"
                )
                #sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                sendLog(
                    'assignor',
                    '%s is not sufficiently available, due to down time of a site in the whitelist. sending back to considered.'
                    % (wfo.name),
                    level='delay')
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known and not options.limit and not options.go and not options.early and not options.partial:
                    wfh.sendLog(
                        'assignor',
                        "cannot be assigned, %s is not sufficiently available.\n %s"
                        % (wfo.name, json.dumps(available_fractions)))
                    sendEmail(
                        "cannot be assigned",
                        "%s is not sufficiently available.\n %s" %
                        (wfo.name, json.dumps(available_fractions)))
                    known.append(wfo.name)
                    open('cannot_assign.json',
                         'w').write(json.dumps(known, indent=2))
                n_stalled += 1
                if options.early:
                    if wfo.status == 'considered':
                        wfh.sendLog('assignor', "setting considered-tried")
                        wfo.status = 'considered-tried'
                        session.commit()
                    else:
                        print "tried but status is", wfo.status
                if options.partial:
                    print "Will move on with partial locations"
                else:
                    continue

        ## default back to white list to original white list with any data
        print "Allowed", sorted(sites_allowed)

        if primary_aaa:
            sites_allowed = initial_sites_allowed
            options.TrustSitelists = True
            wfh.sendLog(
                'assignor', "Selected to read primary through xrootd %s" %
                sorted(sites_allowed))
        else:
            sites_allowed = sites_with_any_data
            wfh.sendLog('assignor',
                        "Selected for any data %s" % sorted(sites_allowed))

        if secondary_aaa:
            options.TrustPUSitelists = True
            wfh.sendLog(
                'assignor', "Reading secondary through xrootd from %s" %
                sorted(sites_allowed))

        ### check on endpoints for on-going transfers
        if endpoints and options.partial:
            sites_allowed = list(
                set(sites_allowed + [SI.SE_to_CE(s) for s in endpoints]))
            print "with added endpoints", sorted(sites_allowed)

        if not len(sites_allowed):
            wfh.sendLog('assignor', "cannot be assign with no matched sites")
            sendLog('assignor',
                    '%s has no whitelist' % wfo.name,
                    level='critical')
            n_stalled += 1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [
                SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])
            ]

        wfh.sendLog('assignor', "Placing the output on %s" % sites_out)
        parameters = {
            'SiteWhitelist': sites_allowed,
            'NonCustodialSites': sites_out,
            'AutoApproveSubscriptionSites': list(set(sites_out)),
            'AcquisitionEra': wfh.acquisitionEra(),
            'ProcessingString': wfh.processingString(),
            'MergedLFNBase': set_lfn,
            'ProcessingVersion': version,
        }

        ## plain assignment here
        team = 'production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team

        if False and 'T2_CH_CERN' in parameters['SiteWhitelist']:
            ## add some check on
            ### the amount pending to HLT
            ### the size of the request
            ### the priority of the request (maybe not if we decide to overflow during runs)
            parameters['SiteWhitelist'] = ['T2_CH_CERN_HLT']
            team = 'hlt'
            ## reduce the splitting by factor of 4, regardless of type of splitting
            sendEmail("sending work to HLT",
                      "%s was assigned to HLT" % wfo.name)

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v = getattr(options, key)
                if v != None:
                    if type(v) == str and ',' in v:
                        parameters[key] = filter(None, v.split(','))
                    else:
                        parameters[key] = v

        if lheinput:
            ## throttle reading LHE article
            wfh.sendLog('assignor',
                        'Setting the number of events per job to 500k max')
            parameters['EventsPerJob'] = 500000

        ## pick up campaign specific assignment parameters
        parameters.update(CI.parameters(wfh.request['Campaign']))

        if not options.test:
            parameters['execute'] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check != True:
            parameters.update(split_check)
            if 'EventBased' in split_check.values():
                wfh.sendLog('assignor', "Falling back to event splitting.")
                #sendEmail("Fallback to EventBased","the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"%wfo.name)
                sendLog(
                    'assignor',
                    'the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting'
                    % wfo.name,
                    level='critical')
            elif 'EventsPerJob' in split_check.values():
                wfh.sendLog('assignor',
                            "Modifying the number of job per event")
                #sendEmail("Modifying the job per events","the workflow %s is too heavy in number of jobs explosion"%wfo.name)
                sendLog(
                    'assignor',
                    "the workflow %s is too heavy in number of jobs explosion"
                    % wfo.name,
                    level='critical')

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi) / float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents / (reqJobs * 1.4))
                lumisPerJob = int(eventsPerJob / eventsPerLumi)
                if lumisPerJob == 0:
                    #sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog('assignor',
                            "%s needs to be split by event with %s per job" %
                            (wfo.name, eventsPerJob),
                            level='critical')
                    wfh.sendLog(
                        'assignor',
                        "%s needs to be split by event with %s per job" %
                        (wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl[
                        'events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl[
                        'avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        #sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog('assignor',
                                "%s was assigned with %s lumis/job" %
                                (wfo.name, lumisPerJob),
                                level='critical')
                        wfh.sendLog(
                            'assignor', "%s was assigned with %s lumis/job" %
                            (wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        #sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog(
                            'assignor',
                            "leaving splitting untouched for %s, please check on %s"
                            % (pstring, wfo.name),
                            level='critical')
                        wfh.sendLog(
                            'assignor',
                            "leaving splitting untouched for PU_RD*, please check."
                        )

        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)

        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned += 1
                wfh.sendLog(
                    'assignor', "Properly assigned\n%s" %
                    (json.dumps(parameters, indent=2)))
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo(url, wfo.name)
                    (_, prim, _, sec) = new_wfi.getIO()
                    for secure in list(prim) + list(
                            sec) + new_wfi.request['OutputDatasets']:
                        ## lock all outputs flat
                        NLI.lock(secure)
                    #for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"

                    print str(e)
                    sendEmail("failed locking of output", str(e))

            else:
                print "ERROR could not assign", wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor', "Assigned %d Stalled %s" % (n_assigned, n_stalled))
Ejemplo n.º 22
0
def transferor(url ,specific = None, talk=True, options=None):
    if userLock():   return
    if duplicateLock():  return

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

    if options and options.test:
        execute = False
    else:
        execute = True

    SI = siteInfo()
    CI = campaignInfo()
    NLI = newLockInfo()
    mcm = McMClient(dev=False)
    dss = DSS()

    #allowed_secondary = UC.get('')
    print "counting all being handled..."
    being_handled = len(session.query(Workflow).filter(Workflow.status == 'away').all())
    being_handled += len(session.query(Workflow).filter(Workflow.status.startswith('stag')).all())
    being_transfered = len(session.query(Workflow).filter(Workflow.status == 'staging').all())
    being_handled += len(session.query(Workflow).filter(Workflow.status.startswith('assistance-')).all())

    max_to_handle = options.maxworkflows
    max_to_transfer = options.maxstaging

    allowed_to_handle = max(0,max_to_handle - being_handled)
    allowed_to_transfer = max(0,max_to_transfer - being_transfered)
    wf_buffer = 5
    if allowed_to_handle<=wf_buffer: ## buffer for having several wf per transfer
        print "Not allowed to run more than",max_to_handle,"at a time. Currently",being_handled,"and",wf_buffer,"buffer"
    else:
        print being_handled,"already being handled",max_to_handle,"max allowed,",allowed_to_handle,"remaining","and",wf_buffer,"buffer"

    if allowed_to_transfer <= wf_buffer:
        print "Not allowed to transfer more than",max_to_transfer,"at a time. Currently",being_transfered,"and",wf_buffer,"buffer"
    else:
        print being_transfered,"already being transfered",max_to_transfer,"max allowed,",allowed_to_transfer,"remaining","and",wf_buffer,"buffer"

    print "... done"

    all_transfers=defaultdict(list)
    workflow_dependencies = defaultdict(set) ## list of wf.id per input dataset
    wfs_and_wfh=[]
    print "getting all wf to consider ..."
    cache = getWorkflows(url, 'assignment-approved', details=True)
    for wfo in session.query(Workflow).filter(Workflow.status.startswith('considered')).all():
        print "\t",wfo.name
        if specific and not specific in wfo.name: continue
        cache_r =filter(lambda d:d['RequestName']==wfo.name, cache)
        if len(cache_r):
            wfs_and_wfh.append( (wfo, workflowInfo( url, wfo.name, spec=False, request = cache_r[0]) ) )
        else:
            wfs_and_wfh.append( (wfo, workflowInfo( url, wfo.name, spec=False) ) )
    print "... done"

    transfers_per_sites = defaultdict(int)
    input_sizes = {}
    ignored_input_sizes = {}
    input_cput = {}
    input_st = {}
    ## list the size of those in transfer already
    in_transfer_priority=None
    min_transfer_priority=None
    print "getting all wf in staging ..."
    stucks = json.loads(open('%s/stuck_transfers.json'%monitor_dir).read())
    
    for wfo in session.query(Workflow).filter(Workflow.status=='staging').all():
        wfh = workflowInfo( url, wfo.name, spec=False)
        #(lheinput,primary,parent,secondary) = wfh.getIO()
        #sites_allowed = getSiteWhiteList( (lheinput,primary,parent,secondary) )
        (lheinput,primary,parent,secondary,sites_allowed) = wfh.getSiteWhiteList()
        for site in sites_allowed: ## we should get the actual transfer destination instead of the full white list
            transfers_per_sites[site] += 1 
        #input_cput[wfo.name] = wfh.getComputingTime()
        #input_st[wfo.name] = wfh.getSystemTime()
        for prim in primary:  
            ds_s = dss.get( prim )
            if prim in stucks: 
                sendLog('transferor', "%s appears stuck, so not counting it %s [GB]"%( prim, ds_s), wfi=wfh)
                ignored_input_sizes[prim] = ds_s
            else:
                input_sizes[prim] = ds_s
                sendLog('transferor', "%s needs %s [GB]"%( wfo.name, ds_s), wfi=wfh)
        if in_transfer_priority==None:
            in_transfer_priority = int(wfh.request['RequestPriority'])
        else:
            in_transfer_priority = max(in_transfer_priority, int(wfh.request['RequestPriority']))
        if min_transfer_priority==None:
            min_transfer_priority = int(wfh.request['RequestPriority'])
        else:
            min_transfer_priority = min(min_transfer_priority, int(wfh.request['RequestPriority']))

    if min_transfer_priority==None or in_transfer_priority ==None:
        print "nothing is lining up for transfer"
        sendEmail("no request in staging","no request in staging")
        return 
        pass

    try:
        print "Ignored input sizes"
        ignored_values = list(ignored_input_sizes.items())
        ignored_values.sort( key = lambda i : i[1] )
        print "\n".join( map(str, ignored_values ) )
        print "Considered input sizes"
        considered_values = list(input_sizes.items())
        considered_values.sort( key = lambda i : i[1] )
        print "\n".join( map(str, considered_values) )
    except Exception as e:
        print "trying to print the summary of input size"
        print str(e)

    print "... done"
    print "Max priority in transfer already",in_transfer_priority
    print "Min priority in transfer already",min_transfer_priority
    print "transfers per sites"
    print json.dumps( transfers_per_sites, indent=2)
    in_transfer_already = sum(input_sizes.values())
    cput_in_transfer_already = sum(input_cput.values())
    st_in_transfer_already = sum(input_st.values())

    ## list the size of all inputs
    primary_input_per_workflow_gb = defaultdict(float)
    print "getting all input sizes ..."
    for (wfo,wfh) in wfs_and_wfh:
        (_,primary,_,_) = wfh.getIO()
        #input_cput[wfo.name] = wfh.getComputingTime()
        #input_st[wfo.name] = wfh.getSystemTime()
        for prim in primary:
            ## do not count it if it appears stalled !
            prim_size = dss.get( prim )
            input_sizes[prim] = prim_size
            primary_input_per_workflow_gb[wfo.name] += prim_size
    print "... done"

    # shuffle first by name
    random.shuffle( wfs_and_wfh )
    # Sort smallest transfers first; allows us to transfer as many as possible workflows.
    def prio_and_size( i, j):
        if int(i[1].request['RequestPriority']) == int(j[1].request['RequestPriority']):
            return cmp(int(primary_input_per_workflow_gb.get(j[0].name, 0)), int(primary_input_per_workflow_gb.get(i[0].name, 0)) )
        else:
            return cmp(int(i[1].request['RequestPriority']),int(j[1].request['RequestPriority']))

    #wfs_and_wfh.sort(cmp = prio_and_size, reverse=True)
    #wfs_and_wfh.sort(cmp = lambda i,j : cmp(int(primary_input_per_workflow_gb.get(i[0].name, 0)), int(primary_input_per_workflow_gb.get(j[0].name, 0)) ))
    #sort by priority higher first
    wfs_and_wfh.sort(cmp = lambda i,j : cmp(int(i[1].request['RequestPriority']),int(j[1].request['RequestPriority']) ), reverse=True)

    cput_grand_total = sum(input_cput.values())
    cput_to_transfer = cput_grand_total - cput_in_transfer_already
    st_grand_total = sum(input_st.values())
    st_to_transfer = st_grand_total - st_in_transfer_already
    print "%15.4f [CPU h] worth already in transfer"%cput_in_transfer_already
    print "%15.4f [CPU h] worth is the current requested transfer load"%cput_to_transfer
    print "%15.4f [h] worth of absolute system time in transfer"%( cput_in_transfer_already / SI.availableSlots())
    print "%15.4f [h] worth of absolute system time is the current requested transfer load"%( cput_to_transfer / SI.availableSlots())
    print "%15.4f [h] worth of theoritical system time in transfer"%( st_in_transfer_already )
    print "%15.4f [h] worth of theoritical system time is the current requested transfer load"%( st_to_transfer )


    grand_total =  sum(input_sizes.values()) 
    to_transfer = grand_total  - in_transfer_already
    grand_transfer_limit = options.maxtransfer
    #grand_transfer_limit = SI.total_disk()*0.25*1024## half of the free sapce in TB->GB
    
    transfer_limit = grand_transfer_limit - in_transfer_already
    print "%15.4f GB already being transfered"%in_transfer_already
    print "%15.4f GB is the current requested transfer load"%to_transfer
    print "%15.4f GB is the global transfer limit"%grand_transfer_limit
    print "%15.4f GB is the available limit"%transfer_limit


    max_staging_per_site = options.maxstagingpersite
                    
    # the max priority value per dataset.
    max_priority = defaultdict(int)
    needs_transfer=0 ## so that we can count'em
    passing_along = 0
    transfer_sizes={}
    went_over_budget=False
    destination_cache = {}
    no_goes = set()

    max_per_round = UC.get('max_per_round').get('transferor',None)
    if max_per_round and not spec:
        wfs_and_wfh = wfs_and_wfh[:max_per_round]
    
    for (wfo,wfh) in wfs_and_wfh:
        print wfo.name,"to be transfered with priority",wfh.request['RequestPriority']

        if wfh.request['RequestStatus']!='assignment-approved':
            if wfh.request['RequestStatus'] in ['aborted','rejected','rejected-archived','aborted-archived']:
                wfo.status = 'trouble' ## so that we look or a replacement
            else:
                wfo.status = 'away'
            wfh.sendLog('transferor', '%s in status %s, setting %s'%( wfo.name,wfh.request['RequestStatus'],wfo.status))
            continue

        (_,primary,_,_) = wfh.getIO()
        this_load=sum([input_sizes[prim] for prim in primary])
        no_budget = False
        if ( this_load and (sum(transfer_sizes.values())+this_load > transfer_limit or went_over_budget ) ):
            if went_over_budget:
                wfh.sendLog('transferor', "Transfer has gone over bubget.")
            else:
                wfh.sendLog('transferor', "Transfer will go over bubget.")
            wfh.sendLog('transferor', "%15.4f GB this load, %15.4f GB already this round, %15.4f GB is the available limit"%(this_load, sum(transfer_sizes.values()), transfer_limit))
            #if sum(transfer_sizes.values()) > transfer_limit:
            went_over_budget = True
            if in_transfer_priority!=None and min_transfer_priority!=None:
                if int(wfh.request['RequestPriority']) >= in_transfer_priority and min_transfer_priority!=in_transfer_priority:
                    wfh.sendLog('transferor',"Higher priority sample %s >= %s go-on over budget"%( wfh.request['RequestPriority'], in_transfer_priority))
                else:
                    if not options.go: 
                        wfh.sendLog('transferor',"%s minimum priority %s < %s : stop"%( min_transfer_priority,wfh.request['RequestPriority'],in_transfer_priority))
                        no_budget = True

        ## throtlle by campaign go
        no_go = False
        if not wfh.go(log=True) and not options.go:
            no_go = True
            no_goes.add( wfo.name )
            
        allowed_secondary = set()
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[campaign]:
                allowed_secondary.update( CI.campaigns[campaign]['secondaries'] )
        if secondary:
            if (secondary and allowed_secondary) and (set(secondary)&allowed_secondary!=set(secondary)):
                wfh.sendLog('assignor','%s is not an allowed secondary'%(', '.join(set(secondary)-allowed_secondary)))
                no_go = True

        if no_go:
            continue
        ## check if the batch is announced

        def check_mcm(wfn):
            announced=False
            is_real=False
            if not wfn.startswith('pdmvserv'):
                is_real = True
            try:
                for b in mcm.getA('batches',query='contains=%s'% wfo.name):
                    is_real = True
                    if b['status']=='announced': 
                        announced=True 
                        break
            except:
                try:
                    for b in mcm.getA('batches',query='contains=%s'% wfo.name):
                        is_real = True
                        if b['status']=='announced': 
                            announced=True 
                            break
                except:
                    print "could not get mcm batch announcement, assuming not real"
            return announced,is_real

        if not use_mcm:
            announced,is_real = False,True
        else:
            if wfh.request['RequestType'] in ['ReReco']:
                announced,is_real = True,True
            else:
                announced,is_real = check_mcm( wfo.name )

        if not announced:
            wfh.sendLog('transferor', "does not look announced.")

            
        if not is_real:
            wfh.sendLog('transferor', "does not appear to be genuine.")

            ## prevent any duplication. if the wf is not mentioned in any batch, regardless of status
            continue

        ## check on a grace period
        injection_time = time.mktime(time.strptime('.'.join(map(str,wfh.request['RequestDate'])),"%Y.%m.%d.%H.%M.%S")) / (60.*60.)
        now = time.mktime(time.gmtime()) / (60.*60.)
        if float(now - injection_time) < 4.:
            if not options.go and not announced: 
                wfh.sendLog('transferor', "It is too soon to start transfer: %3.2fH remaining"%(now - injection_time))
                continue


        if passing_along >= allowed_to_handle:
            #if int(wfh.request['RequestPriority']) >= in_transfer_priority and min_transfer_priority!=in_transfer_priority:
            if in_transfer_priority!=None and min_transfer_priority!=None:
                if int(wfh.request['RequestPriority']) >= in_transfer_priority and int(wfh.request['RequestPriority']) !=min_transfer_priority:
                    ## higher priority, and not only this priority being transfered
                    wfh.sendLog('transferor',"Higher priority sample %s >= %s go-on over %s"%( wfh.request['RequestPriority'], in_transfer_priority, max_to_handle))
                else:
                    wfh.sendLog('transferor'," Not allowed to pass more than %s at a time. Currently %s handled, and adding %s"%( max_to_handle, being_handled, passing_along))
                    if not options.go: 
                        ## should not allow to jump that fence
                        break

        if this_load and needs_transfer >= allowed_to_transfer:
            if in_transfer_priority!=None and min_transfer_priority!=None:
                if int(wfh.request['RequestPriority']) >= in_transfer_priority and int(wfh.request['RequestPriority']) !=min_transfer_priority:
                    ## higher priority, and not only this priority being transfered
                    wfh.sendLog('transferor',"Higher priority sample %s >= %s go-on over %s"%(wfh.request['RequestPriority'], in_transfer_priority,max_to_transfer))
                else:
                    wfh.sendLog('transferor',"Not allowed to transfer more than %s at a time. Currently %s transfering, and adding %s"%( max_to_transfer, being_transfered, needs_transfer))
                    if not options.go: 
                        no_budget = True


        if no_budget:
            continue

        ## the site white list considers site, campaign, memory and core information
        (lheinput,primary,parent,secondary,sites_allowed) = wfh.getSiteWhiteList()
        if options and options.tosites:
            sites_allowed = options.tosites.split(',')


        for dataset in list(primary)+list(parent)+list(secondary):
            ## lock everything flat
            NLI.lock( dataset )

        if not sites_allowed:
            wfh.sendLog('transferor',"not possible site to run at")
            #sendEmail("no possible sites","%s has no possible sites to run at"%( wfo.name ))
            sendLog('transferor',"%s has no possible sites to run at"%( wfo.name ),level='critical')
            continue

        blocks = []
        if 'BlockWhitelist' in wfh.request and wfh.request['BlockWhitelist']:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(set( blocks + getDatasetBlocks( dataset, runs=wfh.request['RunWhitelist'] ) ))
        if 'LumiList' in wfh.request and wfh.request['LumiList']:
            ## augment with the lumi white list
            blocks = list(set( blocks + getDatasetBlocks( dataset, lumis= wfh.request['LumiList'] ) ))

        if blocks:
            print "Reading",len(blocks),"in block whitelist"

        can_go = True
        staging=False
        allowed=True
        primary_destinations = set()
        if primary:
            
            copies_needed_from_CPUh,CPUh = wfh.getNCopies()

            if talk:
                print wfo.name,'reads',', '.join(primary),'in primary'
            ## chope the primary dataset 
            for prim in primary:
                ## keep track of what needs what
                workflow_dependencies[prim].add( wfo.id )

                max_priority[prim] = max(max_priority[prim],int(wfh.request['RequestPriority']))

                wfh.sendLog('transferor',"Would make %s  from cpu requirement %s"%( copies_needed_from_CPUh, CPUh))
                copies_needed = copies_needed_from_CPUh

                if 'Campaign' in wfh.request and wfh.request['Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[wfh.request['Campaign']]:
                    copies_needed_from_campaign = CI.campaigns[wfh.request['Campaign']]['maxcopies']
                    copies_needed = min(copies_needed_from_campaign, copies_needed)
                    
                    wfh.sendLog('transferor',"Maxed to %s by campaign configuration %s"%( copies_needed, wfh.request['Campaign']))


                ### new ways of making the whole thing
                destinations,all_block_names = getDatasetDestinations(url, prim, within_sites = [SI.CE_to_SE(site) for site in sites_allowed], only_blocks=blocks )
                print json.dumps(destinations, indent=2)

                ## get where the dataset is in full and completed
                prim_location = [site for (site,info) in destinations.items() if info['completion']==100 and info['data_fraction']==1]
                ## the rest is places it is going to be
                prim_destination = [site for site in destinations.keys() if not site in prim_location]


                if len(prim_location) >= copies_needed:
                    wfh.sendLog('transferor',"The input is all fully in place at %s sites %s"%( len(prim_location), sorted(prim_location)))
                    continue
                copies_needed = max(0,copies_needed - len(prim_location))
                wfh.sendLog('transferor',"not counting existing copies ; now need %s"% copies_needed)
                copies_being_made = [ sum([info['blocks'].keys().count(block) for site,info in destinations.items() if site in prim_destination]) for block in all_block_names]

                latching_on_transfers = set()
                [latching_on_transfers.update(info['blocks'].values()) for site,info in destinations.items() if site in prim_destination]
                latching_on_transfers = list(latching_on_transfers)
                #print latching_on_transfers

                ## figure out where all this is going to go
                prim_to_distribute = [site for site in sites_allowed if not SI.CE_to_SE(site) in prim_location]
                prim_to_distribute = [site for site in prim_to_distribute if not SI.CE_to_SE(site) in prim_destination]
                ## take out the ones that cannot receive transfers
                prim_to_distribute = [site for site in prim_to_distribute if not any([osite.startswith(site) for osite in SI.sites_veto_transfer])]

                wfh.sendLog('transferor',"Could be going to: %s"% sorted( prim_to_distribute))
                if not prim_to_distribute or any([transfers_per_sites[site] < max_staging_per_site for site in prim_to_distribute]):
                    ## means there is openings let me go
                    print "There are transfer slots available:",[(site,transfers_per_sites[site]) for site in prim_to_distribute]
                    #for site in sites_allowed:
                    #    #increment accross the board, regardless of real destination: could be changed
                    #    transfers_per_sites[site] += 1
                else:
                    if int(wfh.request['RequestPriority']) >= in_transfer_priority and min_transfer_priority!=in_transfer_priority:
                        wfh.sendLog('transferor', "Higher priority sample %s >= %s go-on over transfer slots available"%(wfh.request['RequestPriority'], in_transfer_priority))
                    else:
                        wfh.sendLog('transferor',"Not allowed to transfer more than %s per site at a time. Going overboard for %s"%( max_staging_per_site, sorted([site for site in prim_to_distribute if transfers_per_sites[site]>=max_staging_per_site])))
                        if not options.go:
                            allowed = False
                            break

                for latching in latching_on_transfers:
                    tfo = session.query(Transfer).filter(Transfer.phedexid == int(latching)).first()
                    if not tfo:
                        tfo = session.query(Transfer).filter(Transfer.phedexid == -int(latching)).first()
                        
                    if not tfo:
                        tfo = Transfer( phedexid = latching)
                        tfo.workflows_id = []
                        session.add(tfo)
                    else:
                        tfo.phedexid = latching ## make it positive ever

                    if not wfo.id in tfo.workflows_id:
                        print "adding",wfo.id,"to",tfo.id,"with phedexid",latching
                        l = copy.deepcopy( tfo.workflows_id )
                        l.append( wfo.id )
                        tfo.workflows_id = l
                    if not options.test:
                        session.commit()
                    else:
                        session.flush() ## regardless of commit later on, we need to let the next wf feeding on this transfer to see it in query
                    can_go = False
                    transfer_sizes[prim] = input_sizes[prim]
                    staging = True

                # reduce the number of copies required by the on-going full transfer : how do we bootstrap on waiting for them ??
                #copies_needed = max(0,copies_needed - len(prim_destination))
                copies_needed = max(0,copies_needed - min(copies_being_made))
                wfh.sendLog('transferor', "Not counting the copies being made ; then need %s"% copies_needed)                    
                if copies_needed == 0:
                    wfh.sendLog('transferor', "The output is either fully in place or getting in full somewhere with %s"% latching_on_transfers)
                    can_go = True
                    continue
                elif len(prim_to_distribute)==0:
                    wfh.sendLog('transferor', "We are going to need extra copies, but no destinations seems available")
                    prim_to_distribute = [site for site in sites_allowed if not SI.CE_to_SE(site) in prim_location]
                    prim_to_distribute = [site for site in prim_to_distribute if not any([osite.startswith(site) for osite in SI.sites_veto_transfer])]

                if len(prim_to_distribute)>0: ## maybe that a parameter we can play with to limit the 
                    if not options or options.chop:
                        ### hard include the tape disk andpoint ?
                        #tapes = [site for site in  getDatasetPresence( url, prim, vetos=['T0','T2','T3','Disk']) if site.endswith('MSS')]
                        chops,sizes = getDatasetChops(prim, chop_threshold = options.chopsize, only_blocks=blocks)
                        spreading = distributeToSites( chops, prim_to_distribute, n_copies = copies_needed, weights=SI.cpu_pledges, sizes=sizes)
                        transfer_sizes[prim] = sum(sizes)
                        if not spreading:
                            sendLog('transferor','cannot send %s to any site, it cannot fit anywhere'% prim, level='critical')
                            wfh.sendLog('transferor', "cannot send to any site. %s cannot seem to fit anywhere"%(prim))
                            staging=False
                            can_go = False
                    
                    else:
                        spreading = {} 
                        for site in prim_to_distribute: 
                            if blocks:
                                spreading[site]=blocks
                            else:
                                spreading[site]=[prim]
                        transfer_sizes[prim] = input_sizes[prim] ## this is approximate if blocks are specified
                    can_go = False
                    wfh.sendLog('transferor', "selected CE destinations %s"%(sorted( spreading.keys())))
                    for (site,items) in spreading.items():
                        all_transfers[site].extend( items )
                        transfers_per_sites[site] += 1
                        primary_destinations.add( site ) 
        if not allowed:
            wfh.sendLog('transferor', "Not allowed to move on with")
            continue


        if secondary:

            override_sec_destination = []
            if 'SecondaryLocation' in CI.campaigns[wfh.request['Campaign']]:
                override_sec_destination  = CI.campaigns[wfh.request['Campaign']]['SecondaryLocation']

            print wfo.name,'reads',', '.join(secondary),'in secondary'
            for sec in secondary:

                workflow_dependencies[sec].add( wfo.id )

                if True:
                    ## new style, failing on minbias
                    if not sec in destination_cache:
                        ## this is barbbaric, and does not show the correct picture on workflow by workflow with different whitelist
                        destination_cache[sec],_ = getDatasetDestinations(url, sec) ## NO SITE WHITE LIST ADDED
                        #destination_cache[sec],_ = getDatasetDestinations(url, sec, within_sites = [SI.CE_to_SE(site) for site in sites_allowed])

                    ## limit to the site whitelist NOW
                    se_allowed = [SI.CE_to_SE(site) for site in sites_allowed]
                    destinations = dict([(k,v) for (k,v) in destination_cache[sec].items() if site in se_allowed])
                    ## truncate location/destination to those making up for >90% of the dataset
                    bad_destinations = [destinations.pop(site) for (site,info) in destinations.items() if info['data_fraction']<0.9]
                    sec_location = [site for (site,info) in destinations.items() if info['completion']>=95]
                    sec_destination = [site for site in destinations.keys() if not site in sec_location]
                else:
                    ## old style
                    presence = getDatasetPresence( url, sec )
                    sec_location = [site for site,pres in presence.items() if pres[1]>90.] ## more than 90% of the minbias at sites
                    subscriptions = listSubscriptions( url ,sec )
                    sec_destination = [site for site in subscriptions] 


                sec_to_distribute = [site for site in sites_allowed if not any([osite.startswith(site) for osite in sec_location])]
                sec_to_distribute = [site for site in sec_to_distribute if not any([osite.startswith(site) for osite in sec_destination])]
                sec_to_distribute = [site for site in sec_to_distribute if not  any([osite.startswith(site) for osite in SI.sites_veto_transfer])]
                if override_sec_destination:
                    ## intersect with where we want the PU to be
                    not_needed_anymore = list(set(sec_to_distribute) - set(override_sec_destination))
                    #sendEmail("secondary superfluous","the dataset %s could be removed from %s"%( sec, not_needed_anymore ))
                    sendLog('transferor', "the dataset %s could be removed from %s"%( sec, not_needed_anymore ))
                    sec_to_distribute = list(set(sec_to_distribute) & set(override_sec_destination))

                if len( sec_to_distribute )>0:
                    print "secondary could go to",sorted(sec_to_distribute)
                    sec_size = dss.get( sec )
                    for site in sec_to_distribute:
                        site_se =SI.CE_to_SE(site)
                        if (SI.disk[site_se]*1024.) > sec_size:
                            all_transfers[site].append( sec )
                            can_go = False
                        else:
                            print "could not send the secondary input to",site_se,"because it is too big for the available disk",SI.disk[site_se]*1024,"GB need",sec_size
                            if primary_destinations and site in primary_destinations:
                                #sendEmail('secondary input too big','%s is too big (%s) for %s (%s)'%( sec, sec_size, site_se, SI.disk[site_se]*1024))
                                sendLog('transferor', '%s is too big (%s) for %s (%s)'%( sec, sec_size, site_se, SI.disk[site_se]*1024), level='critical')
                else:
                    print "the secondary input does not have to be send to site"

        ## is that possible to do something more
        if can_go:
            ## no explicit transfer required this time
            if staging:
                ## but using existing ones
                wfh.sendLog('transferor', "latches on existing transfers, and nothing else, settin staging")
                wfo.status = 'staging'
                needs_transfer+=1
            else:
                wfh.sendLog('transferor', "should just be assigned now to %s"%sorted(sites_allowed))
                wfo.status = 'staged'
            passing_along+=1
            wfh.sendLog('transferor', "setting status to %s"%wfo.status)
            session.commit()
            continue
        else:
            ## there is an explicit transfer required
            if staging:
                ## and also using an existing one
                wfh.sendLog('transferor', "latches on existing transfers")
                if not options.test:
                    wfo.status = 'staging'
                    wfh.sendLog('transferor', "setting status to %s"%wfo.status)
                    session.commit()
            wfh.sendLog('transferor',"needs a transfer")
            needs_transfer+=1
            passing_along+=1

    if no_goes:
        #sendEmail("no go for managing","No go for \n"+"\n".join( no_goes ))
        sendLog('transferor', "No go for \n"+"\n".join( no_goes ), level='critical')

    print "accumulated transfers"
    print json.dumps(all_transfers, indent=2)
    fake_id=-1
    wf_id_in_prestaging=set()

    for (site,items_to_transfer) in all_transfers.iteritems():
        items_to_transfer = list(set(items_to_transfer))

        ## convert to storage element
        site_se = SI.CE_to_SE(site)

        ## site that do not want input datasets
        if site in SI.sites_veto_transfer: 
            print site,"does not want transfers"
            continue

        ## throttle the transfer size to T2s ? we'd be screwed by a noPU sample properly configured.

        ## massage a bit the items
        blocks = [it for it in items_to_transfer if '#' in it]
        block_datasets = list(set([it.split('#')[0] for it in blocks]))
        datasets = [it for it in items_to_transfer if not '#' in it]

        details_text = "Making a replica to %s (CE) %s (SE) for"%( site, site_se)
        

        #print "\t",len(blocks),"blocks"
        ## remove blocks if full dataset is send out
        blocks = [block for block in blocks if not block.split('#')[0] in datasets]
        #print "\t",len(blocks),"needed blocks for",list(set([block.split('#')[0] for block in blocks]))
        #print "\t",len(datasets),"datasets"
        #print "\t",datasets
        details_text += '\n\t%d blocks'%len(blocks)
        details_text += '\n\t%d needed blocks for %s'%( len(blocks), sorted(list(set([block.split('#')[0] for block in blocks]))))
        details_text += '\n\t%d datasets'% len(datasets)
        details_text += '\n\t%s'%sorted(datasets)
        
        items_to_transfer = blocks + datasets

        if execute:
            sendLog('transferor', details_text)
        else:
            print "Would make a replica to",site,"(CE)",site_se,"(SE) for"
            print details_text

        ## operate the transfer
        if options and options.stop:
            ## ask to move-on
            answer = raw_input('Continue with that ?')
            if not answer.lower() in ['y','yes','go']:
                continue

        if execute:
            priority = 'normal'
            cds = [ds for ds in datasets+block_datasets if ds in max_priority]
            if cds and False: ## I don't think this is working. subscription should be updated on the fly and regularly for raising the priority if needed
                ## decide on an overall priority : that's a bit too large though
                if any([max_priority[ds]>=90000 for ds in cds]):
                    priority = 'high'
                elif all([max_priority[ds]<80000 for ds in cds]):
                    priority = 'low'
                
            result = makeReplicaRequest(url, site_se, items_to_transfer, 'prestaging', priority=priority)
        else:
            result= {'phedex':{'request_created' : []}}
            fake_id-=1



        if not result:
            print "ERROR Could not make a replica request for",site,items_to_transfer,"pre-staging"
            continue
        for phedexid in [o['id'] for o in result['phedex']['request_created']]:
            new_transfer = session.query(Transfer).filter(Transfer.phedexid == int(phedexid)).first()
            if not new_transfer:
                new_transfer = session.query(Transfer).filter(Transfer.phedexid == -int(phedexid)).first()
            print phedexid,"transfer created"
            if not new_transfer:
                new_transfer = Transfer( phedexid = phedexid)
                session.add( new_transfer )                
            else:
                new_transfer.phedexid = phedexid ## make it positive again

            new_transfer.workflows_id = set()
            for transfering in list(set(map(lambda it : it.split('#')[0], items_to_transfer))):
                new_transfer.workflows_id.update( workflow_dependencies[transfering] )
            new_transfer.workflows_id = list(new_transfer.workflows_id)
            wf_id_in_prestaging.update(new_transfer.workflows_id)
            session.commit()
            ## auto approve it
            if execute:
                approved = approveSubscription(url, phedexid, [site_se])

    for wfid in wf_id_in_prestaging:
        tr_wf = session.query(Workflow).get(wfid)
        if tr_wf and tr_wf.status!='staging':
            if execute:
                tr_wf.status = 'staging'
                if talk:
                    print "setting",tr_wf.name,"to staging"
        session.commit()
Ejemplo n.º 23
0
def completor(url, specific):
    use_mcm = True
    up = componentInfo(mcm=use_mcm, soft=['mcm'])
    if not up.check(): return
    use_mcm = up.status['mcm']
    if use_mcm:
        mcm = McMClient(dev=False)

    CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()

    wfs = []
    wfs.extend( session.query(Workflow).filter(Workflow.status == 'away').all() )
    wfs.extend( session.query(Workflow).filter(Workflow.status.startswith('assistance')).all() )

    ## just take it in random order so that not always the same is seen
    random.shuffle( wfs )

    max_per_round = UC.get('max_per_round').get('completor',None)
    if max_per_round and not specific: wfs = wfs[:max_per_round]

    ## by workflow a list of fraction / timestamps
    completions = json.loads( open('%s/completions.json'%monitor_dir).read())
    
    good_fractions = {}
    timeout = {}
    for c in CI.campaigns:
        if 'force-complete' in CI.campaigns[c]:
            good_fractions[c] = CI.campaigns[c]['force-complete']
        if 'force-timeout' in CI.campaigns[c]:
            timeout[c] = CI.campaigns[c]['force-timeout']

    long_lasting = {}

    overrides = getForceCompletes()
    if use_mcm:    
        ## add all workflow that mcm wants to get force completed
        mcm_force = mcm.get('/restapi/requests/forcecomplete')
        ## assuming this will be a list of actual prepids
        overrides['mcm'] = mcm_force

    print "can force complete on"
    print json.dumps( good_fractions ,indent=2)
    print json.dumps( overrides, indent=2)
    max_force = UC.get("max_force_complete")
    
    #wfs_no_location_in_GQ = set()
    #block_locations = defaultdict(lambda : defaultdict(list))
    #wfs_no_location_in_GQ = defaultdict(list)

    set_force_complete = set()


    for wfo in wfs:
        if specific and not specific in wfo.name: continue

        print "looking at",wfo.name
        ## get all of the same
        wfi = workflowInfo(url, wfo.name)
        pids = wfi.getPrepIDs()
        skip=False
        if not any([c in wfo.name for c in good_fractions]): skip=True
        for user,spec in overrides.items():

            if wfi.request['RequestStatus']!='force-complete':
                if any(s in wfo.name for s in spec) or (wfo.name in spec) or any(pid in spec for pid in pids) or any(s in pids for s in spec):
                    sendEmail('force-complete requested','%s is asking for %s to be force complete'%(user,wfo.name))
                    wfi = workflowInfo(url, wfo.name)
                    forceComplete(url , wfi )
                    skip=True
                    wfi.notifyRequestor("The workflow %s was force completed by request of %s"%(wfo.name,user), do_batch=False)
                    wfi.sendLog('completor','%s is asking for %s to be force complete'%(user,wfo.name))
                    break
    
        if wfo.status.startswith('assistance'): skip = True

        if skip: 
            continue

        priority = wfi.request['RequestPriority']

        if not 'Campaign' in wfi.request: continue

        if not wfi.request['RequestStatus'] in ['acquired','running-open','running-closed']: continue

        c = wfi.request['Campaign']
        if not c in good_fractions: continue
        good_fraction = good_fractions[c]
        ignore_fraction = 2.
        
        lumi_expected = None
        event_expected = None
        if not 'TotalInputEvents' in wfi.request: 
            if 'RequestNumEvents' in wfi.request:
                event_expected = wfi.request['RequestNumEvents']
            else:
                print "truncated, cannot do anything"
                continue
        else:
            lumi_expected = wfi.request['TotalInputLumis']
            event_expected = wfi.request['TotalInputEvents']

        now = time.mktime(time.gmtime()) / (60*60*24.)

        running_log = filter(lambda change : change["Status"] in ["running-open","running-closed"],wfi.request['RequestTransition'])
        if not running_log:
            print "\tHas no running log"
            # cannot figure out when the thing started running
            continue
        then = running_log[-1]['UpdateTime'] / (60.*60.*24.)
        delay = now - then ## in days

        (w,d) = divmod(delay, 7 )
        print "\t"*int(w)+"Running since",delay,"[days] priority=",priority

        monitor_delay = 7
        allowed_delay = 14
        if c in timeout:
            allowed_delay = timeout[c]
            
        monitor_delay = min(monitor_delay, allowed_delay)
        ### just skip if too early
        if delay <= monitor_delay: continue

        long_lasting[wfo.name] = { "delay" : delay }

        percent_completions = {}
        for output in wfi.request['OutputDatasets']:
            if "/DQM" in output: continue ## that does not count
            if not output in completions: completions[output] = { 'injected' : None, 'checkpoints' : [], 'workflow' : wfo.name}
            ## get completion fraction
            event_count,lumi_count = getDatasetEventsAndLumis(dataset=output)
            lumi_completion=0.
            event_completion=0.
            if lumi_expected:
                lumi_completion = lumi_count / float( lumi_expected )
            if event_expected:
                event_completion = event_count / float( event_expected )

            #take the less optimistic
            percent_completions[output] = min( lumi_completion, event_completion )
            completions[output]['checkpoints'].append( (now, event_completion ) )

        if all([percent_completions[out] >= good_fraction for out in percent_completions]):
            wfi.sendLog('completor', "all is above %s \n%s"%( good_fraction, 
                                                              json.dumps( percent_completions, indent=2 )
                                                              ))
        else:
            long_lasting[wfo.name].update({
                    'completion': sum(percent_completions.values()) / len(percent_completions),
                    'completions' : percent_completions
                    })
            
            ## do something about the agents this workflow is in
            long_lasting[wfo.name]['agents'] = wfi.getAgents()
            wfi.sendLog('completor', "%s not over bound %s\n%s"%(percent_completions.values(), good_fraction,
                                                                 json.dumps( long_lasting[wfo.name]['agents'], indent=2) ))
            continue

        if all([percent_completions[out] >= ignore_fraction for out in percent_completions]):
            print "all is done, just wait a bit"
            continue

        for output in  percent_completions:
            completions[output]['injected'] = then

        #further check on delays
        cpuh = wfi.getComputingTime(unit='d')

        ran_at = wfi.request['SiteWhitelist']
                        
        wfi.sendLog('completor',"Required %s, time spend %s"%( cpuh, delay))
                    
        ##### WILL FORCE COMPLETE BELOW
        # only really force complete after n days

        if delay <= allowed_delay: continue
        ## find ACDCs that might be running
        if max_force>0:
            forceComplete(url, wfi )
            set_force_complete.add( wfo.name )
            print "going for force-complete of",wfo.name
            wfi.sendLog('completor','going for force completing')
            wfi.notifyRequestor("The workflow %s was force completed for running too long"% wfo.name)
            max_force -=1
        else:
            wfi.sendLog('completor',"too many completion this round, cannot force complete")

        ## do it once only for testing
        #break
    
    if set_force_complete:
        sendLog('completor','The followings were set force-complete \n%s'%('\n'.join(set_force_complete)))
        #sendEmail('set force-complete', 'The followings were set force-complete \n%s'%('\n'.join(set_force_complete)))
    
    open('%s/completions.json'%monitor_dir,'w').write( json.dumps( completions , indent=2))
    text="These have been running for long"
    
    open('%s/longlasting.json'%monitor_dir,'w').write( json.dumps( long_lasting, indent=2 ))

    for wf,info in sorted(long_lasting.items(), key=lambda tp:tp[1]['delay'], reverse=True):
        delay = info['delay']
        text += "\n %s : %s days"% (wf, delay)
        if 'completion' in info:
            text += " %d%%"%( info['completion']*100 )

    #if wfs_no_location_in_GQ:
    #    sendEmail('workflow with no location in GQ',"there won't be able to run anytime soon\n%s"%( '\n'.join(wfs_no_location_in_GQ)))

    #sendEmail("long lasting workflow",text)
    ## you can check the log
    print text
Ejemplo n.º 24
0
                print u'发送邮件...'
                # utils.sendEmail(emailMsgIndent, subject)
                # utils.sendEmail(emailMsgIndent)
                utils.sendHtmlEmailFromDict(emailMsgArr, subject)

        mainErrCnt = 0
    except BaseException, e:

        mainErrCnt += 1
        print u'遇到未知错误'
        logging.exception(e)
        utils.append_log('%s re run main for %s time, ' % (ID, mainErrCnt))
        title = '%s re run main for %s time, ' % (ID, mainErrCnt)
        utils.appendUserInfoToDb(config.ID, timeStr, False, title)
        if mainErrCnt > 10:
            utils.sendEmail('%s terminate main' % ID)
            print u'退出程序'
            break
        else:
            if mainErrCnt > 3:
                utils.sendEmail('%s re run main for %s time' %
                                (ID, mainErrCnt))
            utils.sleep(60)

    # 独立的
    if likesErrCnt <= 5:
        try:
            urgentLevel = likesObj.checkCnt(urgentLevel, timeStr)
            likesErrCnt = 0
        except BaseException, e:
            likesErrCnt += 1
Ejemplo n.º 25
0
def checkor(url, spec=None, options=None):
    if userLock():   return
    if duplicateLock() and not options.go:  return

    fDB = closeoutInfo()

    UC = unifiedConfiguration()
    use_mcm = True
    up = componentInfo(mcm=use_mcm, soft=['mcm'])
    if not up.check(): return
    use_mcm = up.status['mcm']

    def time_point(label="",sub_lap=False):
        now = time.mktime(time.gmtime())
        nows = time.asctime(time.gmtime())

        print "Time check (%s) point at : %s"%(label, nows)
        print "Since start: %s [s]"% ( now - time_point.start)
        if sub_lap:
            print "Sub Lap : %s [s]"% ( now - time_point.sub_lap ) 
            time_point.sub_lap = now
        else:
            print "Lap : %s [s]"% ( now - time_point.lap ) 
            time_point.lap = now            
            time_point.sub_lap = now

    time_point.sub_lap = time_point.lap = time_point.start = time.mktime(time.gmtime())
    
    runnings = session.query(Workflow).filter(Workflow.status == 'away').all()
    standings = session.query(Workflow).filter(Workflow.status.startswith('assistance')).all()

    ## intersect with what is actually in completed status in request manager now
    all_completed = set(getWorkflows(url, 'completed' ))

    wfs=[]

    if options.strict:
        ## the one which were running and now have completed
        print "strict option is on: checking workflows that freshly completed"
        wfs.extend( filter(lambda wfo: wfo.name in all_completed , runnings))
    if options.update:
        print "update option is on: checking workflows that have not completed yet"
        wfs.extend( filter(lambda wfo: not wfo.name in all_completed , runnings))

    if options.clear:
        print "clear option is on: checking workflows that are ready to toggle closed-out"
        wfs.extend( filter(lambda wfo: 'custodial' in wfo.status, standings))
    if options.review:
        print "review option is on: checking the workflows that needed intervention"
        wfs.extend( filter(lambda wfo: not 'custodial' in wfo.status, standings))

    ## what is left out are the wf which were running and ended up aborted/failed/...

    

    custodials = defaultdict(list) #sites : dataset list
    transfers = defaultdict(list) #sites : dataset list
    invalidations = [] #a list of files
    SI = siteInfo()
    CI = campaignInfo()
    mcm = McMClient(dev=False) if use_mcm else None

    def get_campaign(output, wfi):
        ## this should be a perfect matching of output->task->campaign
        campaign = None
        era = None
        wf_campaign = None
        if 'Campaign' in wfi.request:   wf_campaign = wfi.request['Campaign']
        try:
            era = output.split('/')[2].split('-')[0]
        except:
            era = None
            
        if wfi.isRelval(): 
            campaign = wf_campaign
        else:
            campaign = era if era else wf_campaign
        return campaign

    ## retrieve bypass and onhold configuration
    bypasses = []
    forcings = []
    overrides = getForceCompletes()
    holdings = []

    
    actors = UC.get('allowed_bypass')

    for bypassor,email in actors:
        bypass_file = '/afs/cern.ch/user/%s/%s/public/ops/bypass.json'%(bypassor[0],bypassor)
        if not os.path.isfile(bypass_file):
            #sendLog('checkor','no file %s',bypass_file)
            continue
        try:
            bypasses.extend( json.loads(open(bypass_file).read()))
        except:
            sendLog('checkor',"cannot get by-passes from %s for %s"%(bypass_file ,bypassor))
            sendEmail("malformated by-pass information","%s is not json readable"%(bypass_file), destination=[email])
        
        holding_file = '/afs/cern.ch/user/%s/%s/public/ops/onhold.json'%(bypassor[0],bypassor)
        if not os.path.isfile(holding_file):
            #sendLog('checkor',"no file %s"%holding_file)
            continue
        try:
            extending = json.loads(open(holding_file).read())
            print bypassor,"is holding",extending
            holdings.extend( extending )
        except:
            sendLog('checkor',"cannot get holdings from %s for %s"%(holding_file, bypassor))
            sendEmail("malformated by-pass information","%s is not json readable"%(holding_file), destination=[email])

    ## once this was force-completed, you want to bypass
    for rider,email in actors:
        rider_file = '/afs/cern.ch/user/%s/%s/public/ops/forcecomplete.json'%(rider[0],rider)
        if not os.path.isfile(rider_file):
            print "no file",rider_file
            #sendLog('checkor',"no file %s"%rider_file)
            continue
        try:
            bypasses.extend( json.loads(open( rider_file ).read() ) )
        except:
            sendLog('checkor',"cannot get force complete list from %s"%rider)
            sendEmail("malformated force complet file","%s is not json readable"%rider_file, destination=[email])

    if use_mcm:
        forcings = mcm.get('/restapi/requests/forcecomplete')
        #if forcings:
        #    sendEmail('force completing mechanism','please check what checkor is doing with %s'%( ','.join(forcings)))


    pattern_fraction_pass = UC.get('pattern_fraction_pass')

    total_running_time = 5.*60. 
    sleep_time = 1
    if len(wfs):
        sleep_time = min(max(0.5, total_running_time / len(wfs)), 10)

    random.shuffle( wfs )

    in_manual = 0

    ## now you have a record of what file was invalidated globally from TT
    TMDB_invalid = dataCache.get('file_invalidation') 
    #try:
    #    TMDB_invalid = set([row[3] for row in csv.reader( os.popen('curl -s "https://docs.google.com/spreadsheets/d/11fFsDOTLTtRcI4Q3gXw0GNj4ZS8IoXMoQDC3CbOo_2o/export?format=csv"'))])
    #    TMDB_invalid = map(lambda e : e.split(':')[-1], TMDB_invalid)
    #    print len(TMDB_invalid),"globally invalidated files"
    #except Exception as e:
    #    print "TMDB not fetched"
    #    print str(e)
    #    TMDB_invalid = []


    print len(wfs),"to consider, pausing for",sleep_time
    max_per_round = UC.get('max_per_round').get('checkor',None)
    if options.limit: max_per_round=options.limit
    if max_per_round and not spec: wfs = wfs[:max_per_round]



    for wfo in wfs:
        if spec and not (spec in wfo.name): continue
        
        time.sleep( sleep_time )
        
        time_point("Starting with %s"% wfo.name)

        ## get info
        wfi = workflowInfo(url, wfo.name)
        wfi.sendLog('checkor',"checking on %s %s"%( wfo.name,wfo.status))
        ## make sure the wm status is up to date.
        # and send things back/forward if necessary.
        wfo.wm_status = wfi.request['RequestStatus']
        if wfo.wm_status == 'closed-out':
            ## manually closed-out
            wfi.sendLog('checkor',"%s is already %s, setting close"%( wfo.name , wfo.wm_status))
            wfo.status = 'close'
            session.commit()
            continue

        elif wfo.wm_status in ['failed','aborted','aborted-archived','rejected','rejected-archived','aborted-completed']:
            ## went into trouble
            wfo.status = 'trouble'
            wfi.sendLog('checkor',"%s is in trouble %s"%(wfo.name, wfo.wm_status))
            session.commit()
            continue
        elif wfo.wm_status in ['assigned','acquired']:
            ## not worth checking yet
            wfi.sendLog('checkor',"%s is not running yet"%wfo.name)
            session.commit()
            continue
        
        if '-onhold' in wfo.status:
            if wfo.name in holdings and wfo.name not in bypasses:
                wfi.sendLog('checkor',"%s is on hold"%wfo.name)
                continue

        if wfo.wm_status != 'completed': #and not wfo.name in bypasses:
            ## for sure move on with closeout check if in completed
            wfi.sendLog('checkor',"no need to check on %s in status %s"%(wfo.name, wfo.wm_status))
            session.commit()
            continue

        if wfo.name in holdings and wfo.name not in bypasses:
            wfo.status = 'assistance-onhold'
            wfi.sendLog('checkor',"setting %s on hold"%wfo.name)
            session.commit()
            continue

        session.commit()        
        #sub_assistance="" # if that string is filled, there will be need for manual assistance
        existing_assistance_tags = set(wfo.status.split('-')[1:]) #[0] should be assistance
        assistance_tags = set()

        is_closing = True

        ## get it from somewhere
        bypass_checks = False

        for bypass in bypasses:
            if bypass in wfo.name:
                wfi.sendLog('checkor',"we can bypass checks on %s because of keyword %s "%( wfo.name, bypass))
                bypass_checks = True
                break
        pids = wfi.getPrepIDs()
        force_by_mcm = False
        force_by_user = False
        for force in forcings:
            if force in pids:
                wfi.sendLog('checkor',"we can bypass checks and force complete %s because of prepid %s "%( wfo.name, force))
                bypass_checks = True
                force_by_mcm = True
                break
        for user in overrides:
            for force in overrides[user]:
                if force in wfo.name:
                    wfi.sendLog('checkor',"we can bypass checks and force complete %s because of keyword %s of user %s"%( wfo.name, force, user))
                    bypass_checks = True
                    force_by_user = True
                    break
        
        tiers_with_no_check = copy.deepcopy(UC.get('tiers_with_no_check')) # dqm*
        vetoed_custodial_tier = copy.deepcopy(UC.get('tiers_with_no_custodial')) #dqm*, reco
        to_ddm_tier = copy.deepcopy(UC.get('tiers_to_DDM'))
        campaigns = {} ## this mapping of campaign per output dataset assumes era==campaing, which is not true for relval
        expected_outputs = copy.deepcopy( wfi.request['OutputDatasets'] )
        for out in wfi.request['OutputDatasets']:
            c = get_campaign(out, wfi)
            campaigns[out] = c 
            if c in CI.campaigns and 'custodial_override' in CI.campaigns[c]:
                vetoed_custodial_tier = list(set(vetoed_custodial_tier) - set(CI.campaigns[c]['custodial_override']))
                ## add those that we need to check for custodial copy
                tiers_with_no_check = list(set(tiers_with_no_check) - set(CI.campaigns[c]['custodial_override'])) ## would remove DQM from the vetoed check

        check_output_text = "Initial outputs:"+",".join(sorted(wfi.request['OutputDatasets'] ))
        wfi.request['OutputDatasets'] = [ out for out in wfi.request['OutputDatasets'] if not any([out.split('/')[-1] == veto_tier for veto_tier in tiers_with_no_check])]
        check_output_text += "\nWill check on:"+",".join(sorted(wfi.request['OutputDatasets'] ))
        check_output_text += "\ntiers out:"+",".join( sorted(tiers_with_no_check ))
        check_output_text += "\ntiers no custodial:"+",".join( sorted(vetoed_custodial_tier) )

        wfi.sendLog('checkor', check_output_text )

        ## anything running on acdc : getting the real prepid is not worth it
        familly = getWorkflowById(url, wfi.request['PrepID'], details=True)
        acdc = []
        acdc_inactive = []
        forced_already=False
        acdc_bads = []
        true_familly = []
        for member in familly:
            if member['RequestType'] != 'Resubmission': continue
            if member['RequestName'] == wfo.name: continue
            if member['RequestDate'] < wfi.request['RequestDate']: continue
            if member['PrepID'] != wfi.request['PrepID'] : continue
            #if 'OriginalRequestName' in member and (not 'ACDC' in member['OriginalRequestName']) and member['OriginalRequestName'] != wfo.name: continue
            if member['RequestStatus'] == None: continue

            if not set(member['OutputDatasets']).issubset( set(expected_outputs)):
                if not member['RequestStatus'] in ['rejected-archived','rejected','aborted','aborted-archived']:
                    ##this is not good at all
                    wfi.sendLog('checkor','inconsistent ACDC %s'%member['RequestName'] )
                    #sendLog('checkor','inconsistent ACDC %s'%member['RequestName'], level='critical')
                    acdc_bads.append( member['RequestName'] )
                    is_closing = False
                    assistance_tags.add('manual')
                continue

            true_familly.append( member['RequestName'] )
            #try:
            #    parse_one(url, member['RequestName'])
            #except:
            #    print "Could not make error report for",member['RequestName']

            if member['RequestStatus'] in ['running-open','running-closed','assigned','acquired']:
                print wfo.name,"still has an ACDC running",member['RequestName']
                acdc.append( member['RequestName'] )
                ## cannot be bypassed!
                is_closing = False
                assistance_tags.add('recovering')
                if (force_by_mcm or force_by_user) and not forced_already:
                    wfi.sendLog('checkor','%s is being forced completed while recovering'%wfo.name)
                    wfi.notifyRequestor("The workflow %s was force completed"% wfo.name, do_batch=False)
                    forceComplete(url, wfi)
                    forced_already=True
            else:
                acdc_inactive.append( member['RequestName'] )
                assistance_tags.add('recovered')
        if acdc_bads:
            #sendEmail('inconsistent ACDC','for %s, ACDC %s is inconsistent, preventing from closing'%( wfo.name, ','.join(acdc_bads) ))
            sendLog('checkor','For %s, ACDC %s is inconsistent, preventing from closing or will create a mess.'%( wfo.name, ','.join(acdc_bads) ), level='critical')

        time_point("checked workflow familly", sub_lap=True)


        ## completion check
        percent_completions = {}
        if not 'TotalInputEvents' in wfi.request:
            event_expected,lumi_expected = 0,0
            if not 'recovery' in wfo.status:
                #sendEmail("missing member of the request","TotalInputEvents is missing from the workload of %s"% wfo.name, destination=['*****@*****.**'])
                sendLog('checkor',"TotalInputEvents is missing from the workload of %s"% wfo.name, level='critical')
        else:
            event_expected,lumi_expected =  wfi.request['TotalInputEvents'],wfi.request['TotalInputLumis']

        if 'RequestNumEvents' in wfi.request and int(wfi.request['RequestNumEvents']):
            event_expected = int(wfi.request['RequestNumEvents'])
        elif 'Task1' in wfi.request and 'RequestNumEvents' in wfi.request['Task1']:
            event_expected = wfi.request['Task1']['RequestNumEvents']
            for i in range(1,20):
                if 'Task%d'%i in wfi.request:
                    ## this is wrong ibsolute
                    if 'FilterEfficiency' in wfi.request['Task%d'%i]:
                        event_expected *= float(wfi.request['Task%d'%i]['FilterEfficiency'])
            event_expected = int(event_expected)

        fractions_pass = {}
        events_per_lumi = {}

        over_100_pass = False
        (lhe,prim,_,_) = wfi.getIO()
        if lhe or prim: over_100_pass = False

        time_point("execpted statistics", sub_lap=True)

        for output in wfi.request['OutputDatasets']:
            event_count,lumi_count = getDatasetEventsAndLumis(dataset=output)
            events_per_lumi[output] = event_count/float(lumi_count) if lumi_count else 100
                
            percent_completions[output] = 0.

            if lumi_expected:
                percent_completions[output] = lumi_count / float( lumi_expected )

            if event_expected:
                wfi.sendLog('checkor', "event completion real %s expected %s"%(event_count, event_expected ))
                percent_completions[output] = max(percent_completions[output], float(event_count) / float( event_expected ) )

            default_pass = UC.get('default_fraction_pass')
            fractions_pass[output] = default_pass
            c = campaigns[output]
            if c in CI.campaigns and 'fractionpass' in CI.campaigns[c]:
                if type(CI.campaigns[c]['fractionpass']) == dict:
                    tier = output.split('/')[-1]
                    priority = str(wfi.request['RequestPriority'])
                    ## defined per tier
                    fractions_pass[output] = CI.campaigns[c]['fractionpass'].get('all', default_pass)
                    if tier in CI.campaigns[c]['fractionpass']:
                        fractions_pass[output] = CI.campaigns[c]['fractionpass'][tier]
                    if priority in CI.campaigns[c]['fractionpass']:
                        fractions_pass[output] = CI.campaigns[c]['fractionpass'][priority]
                else:
                    fractions_pass[output] = CI.campaigns[c]['fractionpass']
                wfi.sendLog('checkor', "overriding fraction to %s for %s by campaign requirement"%( fractions_pass[output], output))

            if options.fractionpass:
                fractions_pass[output] = options.fractionpass
                print "overriding fraction to",fractions_pass[output],"by command line for",output

            for key in pattern_fraction_pass:
                if key in output:
                    fractions_pass[output] = pattern_fraction_pass[key]
                    print "overriding fraction to",fractions_pass[output],"by dataset key",key
                    

        if not all([percent_completions[out] >= fractions_pass[out] for out in fractions_pass]):
            possible_recoveries = wfi.getRecoveryDoc()
            if possible_recoveries == []:
                wfi.sendLog('checkor','%s has missing statistics \n%s \n%s, but nothing is recoverable. passing through to annoucement'%( 
                        wfo.name, json.dumps(percent_completions, indent=2), json.dumps(fractions_pass, indent=2) ))
                sendLog('checkor','%s is not completed, but has nothing to be recovered, passing along ?'%wfo.name, level='critical')
                #sendEmail('nothing is recoverable','%s is not completed, but has nothing to be recovered, passing along ?'%wfo.name)#,destination=['*****@*****.**'])
                ## do not bypass for now, until Alan understands why we are loosing ACDC docs 
                bypass_checks = True
            else:
                wfi.sendLog('checkor','%s is not completed  \n%s \n%s'%( 
                        wfo.name, json.dumps(percent_completions, indent=2), json.dumps(fractions_pass, indent=2) ))

            ## hook for creating automatically ACDC ?
            if not bypass_checks:
                assistance_tags.add('recovery')
                is_closing = False

        if over_100_pass and any([percent_completions[out] >100 for out in fractions_pass]):
            print wfo.name,"is over completed"
            print json.dumps(percent_completions, indent=2)
            if not bypass_checks:
                assistance_tags.add('over100')
                is_closing = False

        time_point("checked output size", sub_lap=True)

        ## correct lumi < 300 event per lumi
        #for output in wfi.request['OutputDatasets']:
        #events_per_lumi[output] = getDatasetEventsPerLumi( output )


        lumi_upper_limit = {}
        for output in wfi.request['OutputDatasets']:
            upper_limit = 301.
            campaign = campaigns[output]

            if campaign in CI.campaigns and 'lumisize' in CI.campaigns[campaign]:
                upper_limit = CI.campaigns[campaign]['lumisize']
                print "overriding the upper lumi size to",upper_limit,"for",campaign

            if options.lumisize:
                upper_limit = options.lumisize
                print "overriding the upper lumi size to",upper_limit,"by command line"
                
            lumi_upper_limit[output] = upper_limit
            if wfi.request['RequestType'] in ['ReDigi','ReReco']: lumi_upper_limit[output] = -1
        
        if any([ (lumi_upper_limit[out]>0 and events_per_lumi[out] >= lumi_upper_limit[out]) for out in events_per_lumi]):
            print wfo.name,"has big lumisections"
            print json.dumps(events_per_lumi, indent=2)
            ## hook for rejecting the request ?
            if not bypass_checks:
                assistance_tags.add('biglumi')
                is_closing = False 


        any_presence = {}
        for output in wfi.request['OutputDatasets']:
            any_presence[output] = getDatasetPresence(url, output, vetoes=[])

        time_point("checked dataset presence", sub_lap=True)

        ## custodial copy
        custodial_locations = {}
        custodial_presences = {}
        for output in wfi.request['OutputDatasets']:
            custodial_presences[output] = [s for s in any_presence[output] if 'MSS' in s]
            custodial_locations[output] = phedexClient.getCustodialSubscriptionRequestSite(output)

            if not custodial_locations[output]:
                custodial_locations[output] = []

        time_point("checked custodiality", sub_lap=True)

        ## presence in phedex
        phedex_presence ={}
        for output in wfi.request['OutputDatasets']:
            phedex_presence[output] = phedexClient.getFileCountDataset(url, output )

        time_point("checked phedex count", sub_lap=True)


            
        out_worth_checking = [out for out in custodial_locations.keys() if out.split('/')[-1] not in vetoed_custodial_tier]
        size_worth_checking = sum([getDatasetSize(out)/1023. for out in out_worth_checking ]) ## size in TBs of all outputs
        size_worht_going_to_ddm = sum([getDatasetSize(out)/1023. for out in out_worth_checking if out.split('/')[-1] in to_ddm_tier ]) ## size in TBs of all outputs
        if not all(map( lambda sites : len(sites)!=0, [custodial_locations[out] for out in out_worth_checking])):
            print wfo.name,"has not all custodial location"
            print json.dumps(custodial_locations, indent=2)

            ##########
            ## hook for making a custodial replica ?
            custodial = None
            ## get from other outputs
            for output in out_worth_checking:
                if len(custodial_locations[output]): 
                    custodial = custodial_locations[output][0]
            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the other output custodial:",custodial,"because of limited space"
                custodial = None

            ## try to get it from campaign configuration
            if not custodial:
                for output in out_worth_checking:
                    campaign = campaigns[output]
                    if campaign in CI.campaigns and 'custodial' in CI.campaigns[campaign]:
                        custodial = CI.campaigns[campaign]['custodial']
                        print "Setting custodial to",custodial,"from campaign configuration"

            group = None
            if campaign in CI.campaigns and 'phedex_group' in CI.campaigns[campaign]:
                group = CI.campaigns[campaign]['phedex_group']
                print "using group",group,"for replica"

            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the campaign configuration custodial:",custodial,"because of limited space"
                custodial = None

            ## get from the parent
            pick_custodial = True
            use_parent_custodial = UC.get('use_parent_custodial')
            tape_size_limit = options.tape_size_limit if options.tape_size_limit else UC.get("tape_size_limit")
                
            _,prim,_,_ = wfi.getIO()
            if not custodial and prim and use_parent_custodial:
                parent_dataset = prim.pop()
                ## this is terribly dangerous to assume only 
                parents_custodial = phedexClient.getCustodialSubscriptionRequestSite( parent_dataset )
                ###parents_custodial = findCustodialLocation(url, parent_dataset)
                if not parents_custodial:
                    parents_custodial = []

                if len(parents_custodial):
                    custodial = parents_custodial[0]
                else:
                    print "the input dataset",parent_dataset,"does not have custodial in the first place. abort"
                    #sendEmail( "dataset has no custodial location", "Please take a look at %s in the logs of checkor"%parent_dataset)
                    ## does not work for RAWOADSIM
                    sendLog('checkor',"Please take a look at %s for missing custodial location"% parent_dataset)
                    ## cannot be bypassed, this is an issue to fix
                    is_closing = False
                    pick_custodial = False
                    assistance_tags.add('parentcustodial')
                                
            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the parent custodial:",custodial,"because of limited space"
                custodial = None

            if not custodial and pick_custodial:
                ## pick one at random
                custodial = SI.pick_SE(size=size_worth_checking)


            if custodial and size_worht_going_to_ddm > tape_size_limit:
                print wfi.sendLog('checkor',"The total output size (%s TB) is too large for the limit set (%s TB)"%( size_worth_checking, tape_size_limit))
                custodial = None

            if not custodial:
                print "cannot find a custodial for",wfo.name
                wfi.sendLog('checkor',"cannot find a custodial for %s probably because of the total output size %d"%( wfo.name, size_worth_checking))
                sendLog('checkor',"cannot find a custodial for %s probably because of the total output size %d"%( wfo.name, size_worth_checking), level='critical')
                
            if custodial and (is_closing or bypass_checks):
                print "picked",custodial,"for tape copy"

                ## remember how much you added this round already ; this stays locally
                SI.storage[custodial] -= size_worth_checking
                ## register the custodial request, if there are no other big issues
                for output in out_worth_checking:
                    if not len(custodial_locations[output]):
                        if phedex_presence[output]>=1:
                            wfi.sendLog('checkor','Using %s as a tape destination for %s'%(custodial, output))
                            custodials[custodial].append( output )
                            if group: custodials[custodial][-1]+='@%s'%group
                            ## let's wait and see if that's needed 
                            assistance_tags.add('custodial')
                        else:
                            print "no file in phedex for",output," not good to add to custodial requests"
            #cannot be bypassed


            is_closing = False

        time_point("determined tape location", sub_lap=True)

        ## disk copy 
        disk_copies = {}
        for output in wfi.request['OutputDatasets']:
            disk_copies[output] = [s for s in any_presence[output] if (not 'MSS' in s) and (not 'Buffer' in s)]

        if not all(map( lambda sites : len(sites)!=0, disk_copies.values())):
            print wfo.name,"has not all output on disk"
            print json.dumps(disk_copies, indent=2)


        ## presence in dbs
        dbs_presence = {}
        dbs_invalid = {}
        for output in wfi.request['OutputDatasets']:
            dbs_presence[output] = dbs3Client.getFileCountDataset( output )
            dbs_invalid[output] = dbs3Client.getFileCountDataset( output, onlyInvalid=True)

        
        time_point("dbs file count", sub_lap=True)

        if not all([dbs_presence[out] == (dbs_invalid[out]+phedex_presence[out]) for out in wfi.request['OutputDatasets']]) and not options.ignorefiles:
            mismatch_notice = wfo.name+" has a dbs,phedex mismatch\n"
            mismatch_notice += "in dbs\n"+json.dumps(dbs_presence, indent=2) +"\n"
            mismatch_notice += "invalide in dbs\n"+json.dumps(dbs_invalid, indent=2) +"\n"
            mismatch_notice += "in phedex\n"+json.dumps(phedex_presence, indent=2) +"\n"

            wfi.sendLog('checkor',mismatch_notice)
            if not 'recovering' in assistance_tags:
                assistance_tags.add('filemismatch')
                #print this for show and tell if no recovery on-going
                for out in dbs_presence:
                    _,_,missing_phedex,missing_dbs  = getDatasetFiles(url, out)
                    if missing_phedex:
                        wfi.sendLog('checkor',"These %d files are missing in phedex\n%s"%(len(missing_phedex),
                                                                                          "\n".join( missing_phedex )))
                        were_invalidated = sorted(set(missing_phedex) & set(TMDB_invalid ))
                        if were_invalidated:
                            wfi.sendLog('checkor',"These %d files were invalidated globally\n%s"%(len(were_invalidated),
                                                                                                  "\n".join(were_invalidated)))
                            sendLog('checkor',"These %d files were invalidated globally\n%s\nand are invalidated in dbs"%(len(were_invalidated),
                                                                                                                          "\n".join(were_invalidated)), level='critical')
                            dbs3Client.setFileStatus( were_invalidated, newstatus=0 )
                                
                    if missing_dbs:
                        wfi.sendLog('checkor',"These %d files are missing in dbs\n%s"%(len(missing_dbs),
                                    "\n".join( missing_dbs )))
                        were_invalidated = sorted(set(missing_dbs) & set(TMDB_invalid ))
                        if were_invalidated:
                            wfi.sendLog('checkor',"These %d files were invalidated globally\n%s"%(len(were_invalidated),
                                                                                                  "\n".join(were_invalidated)))
            #if not bypass_checks:
            ## I don't think we can by pass this
            is_closing = False
        
        time_point("checked file count", sub_lap=True)

        fraction_invalid = 0.20
        if not all([(dbs_invalid[out] <= int(fraction_invalid*dbs_presence[out])) for out in wfi.request['OutputDatasets']]) and not options.ignoreinvalid:
            print wfo.name,"has a dbs invalid file level too high"
            print json.dumps(dbs_presence, indent=2)
            print json.dumps(dbs_invalid, indent=2)
            print json.dumps(phedex_presence, indent=2)
            ## need to be going and taking an eye
            assistance_tags.add('invalidfiles')
            if not bypass_checks:
                #sub_assistance+="-invalidfiles"
                is_closing = False

        ## put that heavy part at the end
        ## duplication check
        duplications = {}
        files_per_rl = {}
        for output in wfi.request['OutputDatasets']:
            duplications[output] = "skiped"
            files_per_rl[output] = "skiped"

        time_point("checked invalidation", sub_lap=True)

        if (is_closing or bypass_checks) and (not options.ignoreduplicates):
            print "starting duplicate checker for",wfo.name
            for output in wfi.request['OutputDatasets']:
                print "\tchecking",output
                duplications[output] = True
                try:
                    duplications[output],files_per_rl[output] = dbs3Client.duplicateRunLumiFiles( output , skipInvalid=True, verbose=True)
                except:
                    try:
                        duplications[output],files_per_rl[output] = dbs3Client.duplicateRunLumiFiles( output , skipInvalid=True, verbose=True)
                    except Exception as e:
                        wfi.sendLog('checkor','Not possible to check on duplicate lumi count on %s'%(output))
                        sendLog('checkor','Not possible to check on duplicate lumi count on %s\n%s'%(output,str(e)),level='critical')
                        is_closing=False

            if is_closing and any(duplications.values()) and not options.ignoreduplicates:
                duplicate_notice = ""
                duplicate_notice += "%s has duplicates\n"%wfo.name
                duplicate_notice += json.dumps( duplications,indent=2)
                duplicate_notice += '\n'
                duplicate_notice += json.dumps( files_per_rl, indent=2)
                wfi.sendLog('checkor',duplicate_notice)
                ## hook for making file invalidation ?
                ## it shouldn't be allowed to bypass it
                assistance_tags.add('duplicates')
                is_closing = False 


        time_point("checked duplicates", sub_lap=True)

        time_point("done with %s"%wfo.name)

        ## for visualization later on
        if not wfo.name in fDB.record: 
            #print "adding",wfo.name,"to close out record"
            fDB.record[wfo.name] = {
            'datasets' :{},
            'name' : wfo.name,
            'closeOutWorkflow' : None,
            }
        fDB.record[wfo.name]['closeOutWorkflow'] = is_closing
        fDB.record[wfo.name]['priority'] = wfi.request['RequestPriority']
        fDB.record[wfo.name]['prepid'] = wfi.request['PrepID']

        for output in wfi.request['OutputDatasets']:
            if not output in fDB.record[wfo.name]['datasets']: fDB.record[wfo.name]['datasets'][output] = {}
            rec = fDB.record[wfo.name]['datasets'][output]
            #rec['percentage'] = float('%.2f'%(percent_completions[output]*100))
            rec['percentage'] = math.floor(percent_completions[output]*10000)/100.## round down
            rec['duplicate'] = duplications[output] if output in duplications else 'N/A'
            rec['phedexReqs'] = float('%.2f'%any_presence[output][custodial_presences[output][0]][1]) if len(custodial_presences[output])!=0 else 'N/A'
            rec['closeOutDataset'] = is_closing
            rec['transPerc'] = float('%.2f'%any_presence[output][ disk_copies[output][0]][1]) if len(disk_copies[output])!=0 else 'N/A'
            rec['correctLumis'] = int(events_per_lumi[output]) if (events_per_lumi[output] > lumi_upper_limit[output]) else True
            rec['missingSubs'] = False if len(custodial_locations[output])==0 else ','.join(list(set(custodial_locations[output])))
            rec['dbsFiles'] = dbs_presence[output]
            rec['dbsInvFiles'] = dbs_invalid[output]
            rec['phedexFiles'] = phedex_presence[output]
            rec['acdc'] = "%d / %d"%(len(acdc),len(acdc+acdc_inactive))
            rec['familly'] = true_familly
            now = time.gmtime()
            rec['timestamp'] = time.mktime(now)
            rec['updated'] = time.asctime(now)+' (GMT)'

        ## make the lumi summary 
        if wfi.request['RequestType'] == 'ReReco':
            try:
                os.system('python Unified/lumi_summary.py %s 1 > /dev/null'%(wfi.request['PrepID']))
                os.system('python Unified/lumi_plot.py %s > /dev/null'%(wfi.request['PrepID']))
                wfi.sendLog('checkor','Lumi summary available at %s/datalumi/lumi.%s.html'%(unified_url,wfi.request['PrepID']))
            except Exception as e:
                print str(e)
        ## make the error report
        
    
        ## and move on
        if is_closing:
            ## toggle status to closed-out in request manager
            wfi.sendLog('checkor',"setting %s closed-out"% wfo.name)
            if not options.test:
                if wfo.wm_status in ['closed-out','announced','normal-archived']:
                    print wfo.name,"is already",wfo.wm_status,"not trying to closed-out and assuming it does"
                    res = None
                else:
                    res = reqMgrClient.closeOutWorkflowCascade(url, wfo.name)
                    print "close out answer",res

                if not res in ["None",None]:
                    print "try to get the current status again"
                    wfi_bis = workflowInfo(url, wfo.name)
                    if wfi_bis.request['RequestStatus'] == 'closed-out':
                        print "the request did toggle to closed-out"
                        res = None
                    
                if not res in ["None",None]:
                    print "retrying to closing out"
                    print res
                    res = reqMgrClient.closeOutWorkflowCascade(url, wfo.name)
                    
                
                if res in [None,"None"]:
                    wfo.status = 'close'
                    session.commit()
                    if use_mcm and force_by_mcm:
                        ## shoot large on all prepids, on closing the wf
                        for pid in pids:
                            mcm.delete('/restapi/requests/forcecomplete/%s'%pid)
                else:
                    print "could not close out",wfo.name,"will try again next time"
        else:
            if not 'custodial' in assistance_tags or wfi.isRelval():
                ## do only the report for those
                for member in acdc+acdc_inactive+[wfo.name]:
                    try:
                        parse_one(url, member)
                    except:
                        print "Could not make error report for",member

            ## full known list
            #recovering # has active ACDC
            ##OUT #recovered #had inactive ACDC
            #recovery #not over the pass bar
            #over100 # over 100%
            #biglumi # has a big lumiblock
            #parentcustodial # the parent does not have a valid subscription yet
            #custodial # has had the transfer made, is waiting for a valid custodial subscription to appear
            #filemismatch # there is a dbs/phedex mismatch
            #duplicates #a lumi section is there twice

            ## manual is not added yet, and should be so by recoveror
            print wfo.name,"was tagged with :",list(assistance_tags)
            if 'recovering' in assistance_tags:
                ## if active ACDC, being under threshold, filemismatch do not matter
                assistance_tags = assistance_tags - set(['recovery','filemismatch'])
            if 'recovery' in assistance_tags and 'recovered' in assistance_tags:
                ## should not set -recovery to anything that had ACDC already
                assistance_tags = assistance_tags - set(['recovery','recovered']) 
                ## straight to manual
                assistance_tags.add('manual')
                in_manual += 1
            if 'recovery' in assistance_tags and 'manual' in assistance_tags:
                ## this is likely because something bad is happening, so leave it to manual
                assistance_tags = assistance_tags - set(['recovery'])
                assistance_tags.add('manual')
                in_manual += 1

            ## that means there is something that needs to be done acdc, lumi invalidation, custodial, name it
            print wfo.name,"needs assistance with",",".join( assistance_tags )
            print wfo.name,"existing conditions",",".join( existing_assistance_tags )
            
            #########################################
            ##### notification to requester #########
            go_notify=False
            if assistance_tags and not 'manual' in existing_assistance_tags and existing_assistance_tags != assistance_tags:
                go_notify=True
            

            if go_notify:
                #if wfo.name in already_notified:
                #    print "double notification"
                #    sendEmail('double notification','please take a look at %s'%(wfo.name))                    
                #else:
                #    already_notified.append( wfo.name )

                ###detailslink = 'https://cmsweb.cern.ch/reqmgr/view/details/%s'
                #detailslink = 'https://cmsweb.cern.ch/reqmgr2/fetch?rid=%s'%(wfo.name)
                ###perflink = 'https://cmsweb.cern.ch/couchdb/workloadsummary/_design/WorkloadSummary/_show/histogramByWorkflow/%s'%(wfo.name)
                perflink = '%s/report/%s'%(unified_url,wfo.name)
                splitlink = 'https://cmsweb.cern.ch/reqmgr/view/splitting/%s'%(wfo.name)
                ## notify templates
                messages= {
                    'recovery': 'Samples completed with missing statistics:\n%s\n%s '%( '\n'.join(['%.2f %% complete for %s'%(percent_completions[output]*100, output) for output in wfi.request['OutputDatasets'] ] ), perflink ),
                    'biglumi': 'Samples completed with large luminosity blocks:\n%s\n%s '%('\n'.join(['%d > %d for %s'%(events_per_lumi[output], lumi_upper_limit[output], output) for output in wfi.request['OutputDatasets'] if (events_per_lumi[output] > lumi_upper_limit[output])]), splitlink),
                    'duplicates': 'Samples completed with duplicated luminosity blocks:\n%s\n'%( '\n'.join(['%s'%output for output in wfi.request['OutputDatasets'] if output in duplications and duplications[output] ] ) ),
                    'filemismatch': 'Samples completed with inconsistency in DBS/Phedex',
                    #'manual' :                     'Workflow completed and requires manual checks by Ops',
                    }
                
                content = "The request PREPID (WORKFLOW) is facing issue in production.\n"
                motive = False
                for case in messages:
                    if case in assistance_tags:
                        content+= "\n"+messages[case]+"\n"
                        motive = True
                content += "You are invited to check, while this is being taken care of by Comp-Ops.\n"
                content += "This is an automated message from Comp-Ops.\n"

                items_notified = set()
                if use_mcm and motive:
                    wfi.notifyRequestor( content , mcm = mcm)

            #########################################


            ## logic to set the status further
            if assistance_tags:
                new_status = 'assistance-'+'-'.join(sorted(assistance_tags) )
            else:
                new_status = 'assistance'

            ## case where the workflow was in manual from recoveror
            if not 'manual' in wfo.status or new_status!='assistance-recovery':
                wfo.status = new_status
                if not options.test:
                    wfi.sendLog('checkor','setting %s to %s'%(wfo.name, wfo.status))
                    session.commit()
            else:
                print "current status is",wfo.status,"not changing to anything"

    #open('already_notifified.json','w').write( json.dumps( already_notified , indent=2))

    fDB.html()
    if not spec and in_manual!=0:
        sendEmail("fresh assistance status available","Fresh status are available at %s/assistance.html"%unified_url,destination=['*****@*****.**'])
        #it's a bit annoying
        pass

    ## custodial requests
    print "Custodials"
    print json.dumps(custodials, indent=2)
    for site in custodials:
        items_at = defaultdict(set)
        for i in custodials[site]:
            item, group = i.split('@') if '@' in i else (i,'DataOps')
            items_at[group].add( item )
        for group,items in items_at.items():
            print ','.join(items),'=>',site,'@',group
            if not options.test:
                result = makeReplicaRequest(url, site, sorted(items) ,"custodial copy at production close-out",custodial='y',priority='low', approve = (site in SI.sites_auto_approve) , group=group)
                print result

    print "File Invalidation"
    print invalidations
Ejemplo n.º 26
0
def batchor( url ):
    UC = unifiedConfiguration()
    SI = global_SI()
    ## get all workflows in assignment-approved with SubRequestType = relval
    all_wfs = []
    for user in UC.get("user_relval"):
        all_wfs.extend( getWorkflows(url, 'assignment-approved', details=True, user=user, rtype='TaskChain') )

    wfs = filter( lambda r :r['SubRequestType'] == 'RelVal' if 'SubRequestType' in r else False, all_wfs)
    ## need a special treatment for those
    hi_wfs = filter( lambda r :r['SubRequestType'] == 'HIRelVal' if 'SubRequestType' in r else False, all_wfs)

    by_campaign = defaultdict(set)
    by_hi_campaign = defaultdict(set)
    for wf in wfs:
        print "Relval:",wf['RequestName'], wf['Campaign']
        #by_campaign[wf['Campaign']].add( wf['RequestName'] )
        by_campaign[wf['Campaign']].add( wf['PrepID'] )


    for wf in hi_wfs:
        print "HI Relval:",wf['RequestName'], wf['Campaign']
        #by_hi_campaign[wf['Campaign']].add( wf['RequestName'] )
        by_hi_campaign[wf['Campaign']].add( wf['PrepID'] )
        
    default_setup = {
        "go" :True,
        "parameters" : {
            "SiteWhitelist": [ "T1_US_FNAL" ],
            "MergedLFNBase": "/store/relval",
            "Team" : "relval",
            "NonCustodialGroup" : "RelVal"
            },
        "custodial" : "T1_US_FNAL_MSS",
        "custodial_override" : ["DQMIO"],
        "phedex_group" : "RelVal",
        "lumisize" : -1,
        "fractionpass" : 0.0,
        "maxcopies" : 1
        }
    default_hi_setup = copy.deepcopy( default_setup )

    add_on = {}
    batches = json.loads( open('batches.json').read() )
    relval_routing = UC.get('relval_routing')
    def pick_one_site( p):
        ## modify the parameters on the spot to have only one site
        if "parameters" in p and "SiteWhitelist" in p["parameters"] and len(p["parameters"]["SiteWhitelist"])>1:
            choose_from = list(set(p["parameters"]["SiteWhitelist"]) & set(SI.sites_ready))
            picked = random.choice( choose_from )
            print "picked",picked,"from",choose_from
            p["parameters"]["SiteWhitelist"] = [picked]
            
    for campaign in by_campaign:
        if campaign in batches: continue
        ## get a bunch of information
        setup  = copy.deepcopy( default_setup )

        for key in relval_routing:
            if key in campaign:
                ## augment with the routing information
                augment_with = relval_routing[key]
                print "Modifying the batch configuration because of keyword",key
                print "with",augment_with
                setup = deep_update( setup, augment_with )
        #if 'cc7' in campaign: setup["parameters"]["SiteWhitelist"] = ["T2_US_Nebraska"]
        pick_one_site( setup )
        add_on[campaign] = setup
        sendLog('batchor','Adding the relval campaigns %s with parameters \n%s'%( campaign, json.dumps( setup, indent=2)),level='critical')
        if not campaign in batches: batches[campaign] = []
        batches[campaign] = list(set(list(copy.deepcopy( by_campaign[campaign] )) + batches[campaign] ))

    for campaign in by_hi_campaign:
        if campaign in batches: continue
        ## get a bunch of information
        setup  = copy.deepcopy( default_hi_setup )
        hi_site = random.choice(["T1_DE_KIT","T1_FR_CCIN2P3"])
        setup["parameters"]["SiteWhitelist"]=[ hi_site ]
        #setup["parameters"]["SiteWhitelist"]=["T1_DE_KIT","T1_FR_CCIN2P3"]

        pick_one_site( setup )
        add_on[campaign] = setup
        sendLog('batchor','Adding the HI relval campaigns %s with parameters \n%s'%( campaign, json.dumps( setup, indent=2)),level='critical')
        if not campaign in batches: batches[campaign] = []
        batches[campaign] = list(set(list(copy.deepcopy( by_hi_campaign[campaign] )) + batches[campaign] ))
        
    
    open('batches.json','w').write( json.dumps( batches , indent=2 ) )

    ## open the campaign configuration 
    campaigns = json.loads( open('campaigns.relval.json').read() )


    ## protect for overwriting ??
    for new_campaign in list(set(add_on.keys())-set(campaigns.keys())):
        ## this is new, and can be announced as such
        print new_campaign,"is new stuff"
        subject = "Request of RelVal samples batch %s"% new_campaign
        text="""Dear all, 
A new batch of relval workflows was requested.

Batch ID:

%s

Details of the workflows:

https://dmytro.web.cern.ch/dmytro/cmsprodmon/requests.php?campaign=%s

This is an automated message"""%( new_campaign, 
                                  new_campaign,
                                  )


        print subject
        print text
        to = ['*****@*****.**']
        sendEmail(subject, text, destination=to)
        sendLog('batchor',text, level='critical')

    ## go through all existing campaigns and remove the ones not in use anymore ?
    for old_campaign in campaigns.keys():
        all_in_batch = getWorkflowByCampaign(url, old_campaign, details=True)
        is_batch_done = all(map(lambda s : not s in ['completed','running-open','running-closed','acquired','assigned','assignment-approved'], [wf['RequestStatus']for wf in all_in_batch]))
        ## check all statuses
        if is_batch_done:
            #print "batch",old_campaign,"can be closed or removed if necessary"
            #campaigns[old_campaign]['go'] = False ## disable
            campaigns.pop( old_campaign ) ## or just drop it all together ?
            print "batch",old_campaign," configuration was removed"

    ## merge all anyways
    campaigns.update( add_on )

    ## write it out for posterity
    open('campaigns.json.updated','w').write(json.dumps( campaigns , indent=2))

    ## read back
    rread = json.loads(open('campaigns.json.updated').read())

    os.system('mv campaigns.json.updated campaigns.relval.json')
Ejemplo n.º 27
0
def injector(url, options, specific):
    mlock = moduleLock()
    if mlock(): return

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

    UC = unifiedConfiguration()

    transform_keywords = UC.get('convert_to_stepchain')

    workflows = getWorkflows(url, status=options.wmstatus, user=options.user)
    for user in UC.get("user_rereco"):
        workflows.extend( getWorkflows(url, status=options.wmstatus, user=user, rtype="ReReco")) 
    for user in (options.user_relval.split(',') if options.user_relval else UC.get("user_relval")) :
        workflows.extend( getWorkflows(url, status=options.wmstatus, user=user, rtype="TaskChain")) 
    for user in (options.user_storeresults.split(',') if options.user_storeresults else UC.get("user_storeresults")) :
        workflows.extend( getWorkflows(url, status=options.wmstatus, user=user, rtype="StoreResults"))

    print len(workflows),"in line"
    cannot_inject = set()
    to_convert = set()
    status_cache = defaultdict(str)

    ## browse for assignment-approved requests, browsed for ours, insert the diff
    for wf in workflows:
        if specific and not specific in wf: continue

        exists = session.query(Workflow).filter(Workflow.name == wf ).first()
        if not exists:
            wfi = workflowInfo(url, wf)
            ## check first that there isn't related here with something valid
            can_add = True
            ## first try at finding a match
            familly = session.query(Workflow).filter(Workflow.name.contains(wfi.request['PrepID'])).all()
            if not familly:
                pids = wfi.getPrepIDs()
                req_familly = []
                for pid in pids:
                    req_familly.extend( getWorkflowById( url, pid, details=True) )
                    
                familly = []
                print len(req_familly),"members"
                for req_member in req_familly:
                    #print "member",req_member['RequestName']
                    owfi = workflowInfo(url, req_member['RequestName'], request=req_member)
                    other_pids = owfi.getPrepIDs()
                    if set(pids) == set(other_pids):
                        ## this is a real match
                        familly.extend( session.query(Workflow).filter(Workflow.name == req_member['RequestName']).all() )

            for lwfo in familly:
                if lwfo:
                    ## we have it already
                    if not lwfo.status in ['forget','trouble','forget-unlock','forget-out-unlock']:
                        wfi.sendLog('injector',"Should not put %s because of %s %s"%( wf, lwfo.name,lwfo.status ))
                        sendLog('injector',"Should not put %s because of %s %s"%( wf, lwfo.name,lwfo.status ), level='critical')
                        print "Should not put",wf,"because of",lwfo.name,lwfo.status
                        cannot_inject.add( wf )
                        can_add = False
            ## add a check on validity of input datasets
            _,prim,par,sec = wfi.getIO()
            for d in list(prim)+list(par)+list(sec):
                if not d in status_cache:
                    status_cache[d] = getDatasetStatus(d)
                if status_cache[d] != 'VALID':
                    wfi.sendLog('injector',"One of the input is not VALID. %s : %s"%( d, status_cache[d]))
                    sendLog('injector',"One of the input of %s is not VALID. %s : %s"%( wf, d, status_cache[d]), level='critical')
                    can_add = False
                #else:
                #    ##make sure that all blocks get closed
                #    closeAllBlocks(url, d)

                ## check for any file in phedex, to verify existence
                _,ph_files,_,_ = getDatasetFiles(url, d)
                if not ph_files and not ( 'StoreResults' == wfi.request.setdefault('RequestType',None) ):
                    wfi.sendLog('injector',"One of the input has no file in phedex: %s" % d )
                    sendLog('injector',"One of the input has no file in phedex: %s"% d, level='critical')
                    can_add = False

            ### ban some workflow that you don't like anymore
            #outputs = wfi.request['OutputDatasets']



            if not can_add: continue

            ## temporary hack to transform specific taskchain into stepchains
            good_for_stepchain = wfi.isGoodToConvertToStepChain( keywords = transform_keywords)
            #good_for_stepchain = wfi.isGoodToConvertToStepChain( keywords = None) 


            ## match keywords and technical constraints
            if (not options.no_convert) and good_for_stepchain and not wfi.isRelval():
                to_convert.add( wf )
                wfi.sendLog('injector','Transforming %s TaskChain into StepChain'%wf)
                sendEmail('convertion to stepchain','Transforming %s TaskChain into StepChain'%wf)

            wfi.sendLog('injector',"considering %s"%wf)

            new_wf = Workflow( name = wf , status = options.setstatus, wm_status = options.wmstatus) 
            session.add( new_wf )
            session.commit()
            time.sleep(0.5)
        else:
            #print "already have",wf
            pass
    

    if cannot_inject:
        #sendEmail('workflow duplicates','These workflow cannot be added in because of duplicates \n\n %s'%( '\n'.join(cannot_inject)))
        sendLog('injector','These workflow cannot be added in because of duplicates \n\n %s'%( '\n'.join(cannot_inject)), level='critical')
        
    for wf in to_convert:
        os.system('./Unified/rejector.py --clone --to_step --comments \"Transform to StepChain\" %s'% wf)

    ## passing a round of invalidation of what needs to be invalidated
    if use_mcm and (options.invalidate or True):
        invalidator(url)

    no_replacement = set()

    #print "getting all transfers"
    #all_transfers=session.query(Transfer).all()
    #print "go!"

    ## pick up replacements
    for wf in session.query(Workflow).filter(Workflow.status == 'trouble').all():
        print wf.name
        if specific and not specific in wf.name: continue
        print wf.name
        wfi = workflowInfo(url, wf.name )
        wl = wfi.request #getWorkLoad(url, wf.name)
        familly = getWorkflowById( url, wl['PrepID'] )
        true_familly = []
        for member in familly:
            if member == wf.name: continue
            fwl = getWorkLoad(url , member)
            if options.replace:
                if member != options.replace: continue
            else:
                if fwl['RequestDate'] < wl['RequestDate']: continue
                if fwl['RequestType']=='Resubmission': continue
                if fwl['RequestStatus'] in ['None',None,'new']: continue
                if fwl['RequestStatus'] in ['rejected','rejected-archived','aborted','aborted-archived']: continue
            true_familly.append( fwl )

        if len(true_familly)==0:
            #sendLog('injector','%s had no replacement'%wf.name, level='critical')
            if wfi.isRelval():
                #wfi.sendLog('injector','the workflow was found in trouble with no replacement. As a relval, there is no clean way to handle this.')
                wfi.sendLog('injector','the workflow was found in trouble with no replacement. As a relval, there is no clean way to handle this. Setting forget')
                wf.status = 'forget'
                session.commit()
            else:
                wfi.sendLog('injector','the workflow was found in trouble with no replacement')
                no_replacement.add( wf.name )
            continue
        else:
            wfi.sendLog('injector','the workflow was found in trouble and has a replacement')
                    
        print wf.name,"has",len(familly),"familly members"
        print wf.name,"has",len(true_familly),"true familly members"

        ##we cannot have more than one of them !!! pick the last one
        if len(true_familly)>1:
            #sendEmail('multiple wf','please take a look at injector for %s'%wf.name)
            sendLog('injector','Multiple wf in line, will take the last one for %s \n%s'%( wf.name, ', '.join(fwl['RequestName'] for fwl in true_familly)), level='critical')

        for fwl in true_familly[-1:]:
            member = fwl['RequestName']
            new_wf = session.query(Workflow).filter(Workflow.name == member).first()
            if not new_wf:
                sendLog('injector',"putting %s as replacement of %s"%( member, wf.name))
                status = 'away'
                if fwl['RequestStatus'] in ['assignment-approved']:
                    status = 'considered'
                new_wf = Workflow( name = member, status = status, wm_status = fwl['RequestStatus'])
                wf.status = 'forget'
                session.add( new_wf ) 
            else:
                if new_wf.status == 'forget': continue
                sendLog('injector',"getting %s as replacement of %s"%( new_wf.name, wf.name ))
                wf.status = 'forget'

            for tr in session.query(TransferImp).filter( TransferImp.workflow_id == wf.id).all():
                ## get all transfer working for the old workflow
                existing = session.query(TransferImp).filter( TransferImp.phedexid == tr.phedexid).filter( TransferImp.workflow_id == new_wf.id).all()
                tr.active = False ## disable the old one
                if not existing:
                    ## create the transfer object for the new dependency
                    tri = TransferImp( phedexid = tr.phedexid,
                                       workflow = new_wf)
                    session.add( tri )
                session.commit()


        ## don't do that automatically
        #wf.status = 'forget'
        session.commit()
    if no_replacement:
        #sendEmail('workflow with no replacement','%s \n are dangling there'%( '\n'.join(no_replacement)))
        sendLog('injector','workflow with no replacement\n%s \n are dangling there'% ( '\n'.join(no_replacement)), level='critical')
Ejemplo n.º 28
0
        conn.close()


errorCnt = 0
while True:
    try:
        print '========================='
        sec, timestr = utils.init_time(time.localtime())
        print timestr
        for id in ID_ARR:
            print '==='
            print id
            main(id, timestr)
        print 'sleep %5d sec...' % sec
        errorCnt = 0
        time.sleep(sec)
    except Exception, e:
        errorCnt += 1
        print u'遇到错误'
        logging.exception(e)
        if errorCnt <= 5:
            print 'sleep 60 sec...'
            time.sleep(60)
        else:
            msg = id + ' zhihu errorCnt > 5, stopped'
            print msg
            utils.sendEmail(msg)
            break
    finally:
        pass
Ejemplo n.º 29
0
def assignor(url ,specific = None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = global_SI
    #LI = lockInfo()
    NLI = newLockInfo()

    n_assigned = 0
    n_stalled = 0

    wfos=[]
    if specific or options.early:
        wfos.extend( session.query(Workflow).filter(Workflow.status=='considered').all())
        wfos.extend( session.query(Workflow).filter(Workflow.status=='staging').all())
    if specific:
        wfos.extend( session.query(Workflow).filter(Workflow.status=='considered-tried').all())        
    wfos.extend(session.query(Workflow).filter(Workflow.status=='staged').all())


    dataset_endpoints = json.loads(open('%s/dataset_endpoints.json'%monitor_dir).read())

    max_per_round = UC.get('max_per_round').get('assignor',None)
    max_cpuh_block = UC.get('max_cpuh_block')
    random.shuffle( wfos )
    for wfo in wfos:
        if options.limit and (n_stalled+n_assigned)>options.limit:
            break

        if max_per_round and (n_stalled+n_assigned)>max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name,specific.split(','))): continue
            #if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo( url, wfo.name)
        wfh.sendLog('assignor',"%s to be assigned"%wfo.name)

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput,primary,parent,secondary, sites_allowed) = wfh.getSiteWhiteList()

        ## check if by configuration we gave it a GO
        no_go = False
        allowed_secondary = set()
        for campaign in wfh.getCampaigns():
            if not CI.go( campaign ):    
                wfh.sendLog('assignor',"No go for %s"%campaign)
                if not options.go:
                    n_stalled+=1
                    no_go = True
                    break
            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[campaign]:
                allowed_secondary.update( CI.campaigns[campaign]['secondaries'] )
        if (secondary and allowed_secondary) and (set(secondary)&allowed_secondary!=set(secondary)):
            wfh.sendLog('assignor','%s is not an allowed secondary'%(', '.join(set(secondary)-allowed_secondary)))
            #sendEmail('secondary not allowed','%s is not an allowed secondary'%( ', '.join(set(secondary)-allowed_secondary)))
            sendLog('assignor','%s is not an allowed secondary'%(', '.join(set(secondary)-allowed_secondary)), level='critical')
            if not options.go:
                n_stalled+=1
                no_go = True
                
        if no_go:
            continue


        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] !='assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',"setting %s away and skipping"%wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name,wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version=wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor',"cannot decide on version number")
                n_stalled+=1
                wfo.status = 'trouble'
                session.commit()
                continue


        original_sites_allowed = copy.deepcopy( sites_allowed )
        wfh.sendLog('assignor',"Site white list %s"%sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request['Campaign'], 'SecondaryLocation', [])

        blocks = []
        if 'BlockWhitelist' in wfh.request:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(set( blocks + getDatasetBlocks( dataset, runs=wfh.request['RunWhitelist'] ) ))

        wfh.sendLog('assignor',"Allowed %s"%sorted(sites_allowed))
        secondary_locations=None
        for sec in list(secondary):
            if override_sec_location: 
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                sendEmail("tempting to pass sec location check","but we cannot yet IMO")
                #pass

            presence = getDatasetPresence( url, sec )
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [site for (site,(there,frac)) in presence.items() if frac>98.]
            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations==None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [site for site in sites_allowed if SI.CE_to_SE(site) in one_secondary_locations]
            
        wfh.sendLog('assignor',"From secondary requirement, now Allowed%s"%sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy( sites_allowed ) ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy( sites_allowed )
        sites_with_data = copy.deepcopy( sites_allowed )
        sites_with_any_data = copy.deepcopy( sites_allowed )
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc' ## by default
        endpoints = set()
        for prim in list(primary):
            if prim in dataset_endpoints:
                print "endpoints from stagor",dataset_endpoints[prim]
                endpoints.update( dataset_endpoints[prim] )
            set_lfn = getLFNbase( prim )
            presence = getDatasetPresence( url, prim , only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] =  getDatasetBlocksFraction(url, prim, sites = [SI.CE_to_SE(site) for site in sites_allowed] , only_blocks = blocks)
            #sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            #sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,(there,frac)) in presence.items() if there]]
            sites_with_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,frac) in presence.items() if frac[1]>90.]]
            sites_with_any_data = [site for site in sites_with_any_data if SI.CE_to_SE(site) in presence.keys()]
            wfh.sendLog('assignor',"Holding the data but not allowed %s"%sorted(list(set([se_site for se_site in presence.keys() if not SI.SE_to_CE(se_site) in sites_allowed]))))
            if primary_locations==None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(set(primary_locations) & set(presence.keys() ))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites=[]
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations)) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            elif primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list(set(primary_locations) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            else:
                opportunistic_sites = []
            wfh.sendLog('assignor',"We could be running in addition at %s"% sorted(opportunistic_sites))
            if any([osite in SI.sites_not_ready for osite in opportunistic_sites]):
                wfh.sendLog('assignor',"One of the usable site is in downtime %s"%([osite in SI.sites_not_ready for osite in opportunistic_sites]))
                down_time = True
                ## should this be send back to considered ?
                

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted,cpuh = wfh.getNCopies()
        wfh.sendLog('assignor',"we need %s CPUh"%cpuh)
        if cpuh>max_cpuh_block and not options.go:
            #sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog('assignor','%s requires a large numbr of CPUh %s , not assigning, please check with requester'%( wfo.name, cpuh), level='critical')
            wfh.sendLog('assignor',"Requiring a large number of CPUh %s, not assigning"%cpuh)
            continue

        if 'Campaign' in wfh.request and wfh.request['Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[wfh.request['Campaign']]:
            copies_needed_from_campaign = CI.campaigns[wfh.request['Campaign']]['maxcopies']
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)
        
        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(1,copies_wanted-less_copies_than_requested) # take one out for the efficiency
        else:
            ## find out whether there is a site in the whitelist, that is lacking jobs and reduce to 1 copy needed to get things going
            pass

        wfh.sendLog('assignor',"needed availability fraction %s"% copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        if available_fractions and not all([available>=copies_wanted for available in available_fractions.values()]):
            not_even_once = not all([available>=1. for available in available_fractions.values()])
            wfh.sendLog('assignor',"The input dataset is not available %s times, only %s"%( copies_wanted, available_fractions.values()))
            if down_time and not options.go and not options.early:
                wfo.status = 'considered'
                session.commit()
                wfh.sendLog('assignor',"sending back to considered because of site downtime, instead of waiting")
                #sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                sendLog('assignor','%s is not sufficiently available, due to down time of a site in the whitelist. sending back to considered.'%( wfo.name ), level='delay')
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known and not options.limit and not options.go and not options.early and not options.partial:
                    wfh.sendLog('assignor',"cannot be assigned, %s is not sufficiently available.\n %s"%(wfo.name,json.dumps(available_fractions)))
                    sendEmail( "cannot be assigned","%s is not sufficiently available.\n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append( wfo.name )
                    open('cannot_assign.json','w').write(json.dumps( known, indent=2))
                n_stalled+=1
                if options.early:
                    if wfo.status == 'considered':
                        wfh.sendLog('assignor',"setting considered-tried")
                        wfo.status = 'considered-tried'
                        session.commit()
                    else:
                        print "tried but status is",wfo.status
                if options.partial:
                    print "Will move on with partial locations"
                else:
                    continue

        ## default back to white list to original white list with any data
        print "Allowed",sorted(sites_allowed)
        if options.primary_aaa:
            sites_allowed = initial_sites_allowed
            #options.useSiteListAsLocation = True
            options.TrustSitelists = True
        else:
            sites_allowed = sites_with_any_data
            wfh.sendLog('assignor',"Selected for any data %s"%sorted(sites_allowed))

        if options.restrict:
            print "Allowed",sites_allowed
            sites_allowed = sites_with_any_data
            print "Selected",sites_allowed
        else:
            if set(sites_with_data) != set(sites_allowed):
                ## the data is not everywhere we wanted to run at : enable aaa
                print "Sites with 90% data not matching site white list (block choping!)"
                print "Resorting to AAA reading for",list(set(sites_allowed) - set(sites_with_data)),"?"
                print "Whitelist site with any data",list(set(sites_allowed) - set(sites_with_any_data))
                #options.useSiteListAsLocation = True
                #print "Not commissioned yet"
                #continue
            #print "We could be running at",opportunistic_sites,"in addition"
            ##sites_allowed = list(set(sites_allowed+ opportunistic_sites))

        ### check on endpoints for on-going transfers
        if endpoints and options.partial:
            sites_allowed = list(set(sites_allowed + [SI.SE_to_CE(s) for s in endpoints]))
            print "with added endpoints",sorted(sites_allowed)
            
        #if options.partial:
        #    continue



        if not len(sites_allowed):
            wfh.sendLog('assignor',"cannot be assign with no matched sites")
            #sendEmail( "cannot be assigned","%s has no whitelist"%(wfo.name))
            sendLog('assignor','%s has no whitelist'% wfo.name, level='critical')
            n_stalled+=1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])]
            
        ## one last modification now that we know we can assign, and to make sure all ressource can be used by the request : set all ON sites to whitelist
        ###sites_allowed = original_sites_allowed ## not needed, afterall as secondary jobs go their own ways
            
        wfh.sendLog('assignor',"Placing the output on %s"%sites_out)
        parameters={
            'SiteWhitelist' : sites_allowed,
            #'CustodialSites' : sites_custodial,
            'NonCustodialSites' : sites_out,
            'AutoApproveSubscriptionSites' : list(set(sites_out)),
            'AcquisitionEra' : wfh.acquisitionEra(),
            'ProcessingString' : wfh.processingString(),
            'MergedLFNBase' : set_lfn,
            'ProcessingVersion' : version,
            }


        ## plain assignment here
        team='production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team

        ## high priority team agent
        #if wfh.request['RequestPriority'] >= 100000 and (wfh.request['TimePerEvent']*int(wfh.getRequestNumEvents()))/(8*3600.) < 10000:
        #    team = 'highprio'
        #    sendEmail("sending work with highprio team","%s"% wfo.name, destination=['*****@*****.**'])

        ## SDSC redirection
        #if "T2_US_UCSD" in sites_with_data and random.random() < -0.5 and wfh.request['Campaign']=='RunIISpring15DR74' and int(wfh.getRequestNumEvents()) < 600000 and not any([out.endswith('RAW') for out in wfh.request['OutputDatasets']]):
        #    ## consider SDSC
        #    parameters['SiteWhitelist'] = ['T2_US_UCSD','T3_US_SDSC']
        #    parameters['useSiteListAsLocation'] = True
        #    team = 'allocation-based'
        #    sendEmail("sending work to SDSC","%s was assigned to SDSC/UCSD"% wfo.name, destination=['*****@*****.**'])
        
        ## SDSC redirection
        #if wfh.request['Campaign']==R'unIIWinter15GS' and random.random() < -1.0:
        #    parameters['SiteWhitelist'] = ['T3_US_SDSC']
        #    team = 'allocation-based'
        #    sendEmail("sending work to SDSC","%s was assigned to SDSC"% wfo.name, destination=['*****@*****.**'])
        

        if False and 'T2_CH_CERN' in parameters['SiteWhitelist']:
            ## add some check on 
            ### the amount pending to HLT
            ### the size of the request
            ### the priority of the request (maybe not if we decide to overflow during runs)
            parameters['SiteWhitelist'] = ['T2_CH_CERN_HLT']
            team = 'hlt'
            ## reduce the splitting by factor of 4, regardless of type of splitting
            sendEmail("sending work to HLT","%s was assigned to HLT"%wfo.name)
            

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v=getattr(options,key)
                if v!=None:
                    if type(v)==str and ',' in v: 
                        parameters[key] = filter(None,v.split(','))
                    else: 
                        parameters[key] = v

        ## pick up campaign specific assignment parameters
        parameters.update( CI.parameters(wfh.request['Campaign']) )

        if not options.test:
            parameters['execute'] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check!=True:
            parameters.update( split_check )
            if 'EventBased' in split_check.values():
                wfh.sendLog('assignor', "Falling back to event splitting.")
                #sendEmail("Fallback to EventBased","the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"%wfo.name)
                sendLog('assignor','the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting'%wfo.name, level='critical')
            elif 'EventsPerJob' in split_check.values():
                wfh.sendLog('assignor', "Modifying the number of job per event")
                #sendEmail("Modifying the job per events","the workflow %s is too heavy in number of jobs explosion"%wfo.name)
                sendLog('assignor',"the workflow %s is too heavy in number of jobs explosion"%wfo.name, level='critical')

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi)/float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents/(reqJobs*1.4))
                lumisPerJob = int(eventsPerJob/eventsPerLumi)
                if lumisPerJob==0:
                    #sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog('assignor', "%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob), level='critical')
                    wfh.sendLog('assignor', "%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl['events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl['avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        #sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog('assignor',"%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob), level='critical')
                        wfh.sendLog('assignor',"%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        #sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog('assignor',"leaving splitting untouched for %s, please check on %s"%( pstring, wfo.name), level='critical')
                        wfh.sendLog('assignor',"leaving splitting untouched for PU_RD*, please check.")


        
        
        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)


        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned+=1
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo( url, wfo.name)
                    (_,prim,_,sec) = new_wfi.getIO()
                    for secure in list(prim)+list(sec)+new_wfi.request['OutputDatasets']:
                        ## lock all outputs flat
                        NLI.lock( secure )
                    #for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"
                    
                    print str(e)
                    sendEmail("failed locking of output",str(e))


            else:
                print "ERROR could not assign",wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor',"Assigned %d Stalled %s"%(n_assigned, n_stalled))
Ejemplo n.º 30
0
def main():
    options, args = parseCommandLine()

    warnings = {}

    # Verify that existing documents are valid
    for collection in collections:
        logs.info("Running checks for %s" % collection.__name__)
        db = collection()
        begin = time.time()

        stats = {
            'passed': 0,
            'errors': [],
        }

        # Build handler
        greenlets = [ gevent.spawn(handler, db, options) ]

        # Build workers
        for i in range(WORKER_COUNT):
            greenlets.append(gevent.spawn(worker, db, collection, api, stats, options))

        # Run!
        gevent.joinall(greenlets)

        passed = stats.pop('passed', 0)
        errors = stats.pop('errors', [])
        total = passed

        print ('='*80)
        print '%40s: %s' % ('PASSED', passed)
        for k, v in stats.items():
            print '%40s: %s' % (k, v)
            total += int(v)
        print ('-'*80)
        print '%40s: %s%s Accuracy (%.2f seconds)' % (collection.__name__, int(100.0*passed/total*1.0), '%', (time.time()-begin))
        print 

        if len(errors) > 0:
            warnings[collection.__name__] = errors

            for error in errors:
                print error 
            print 

    # TODO: Repopulate missing documents

    # Email dev if any errors come up
    if libs.ec2_utils.is_ec2() and options.email:
        if len(warnings) > 0:
            try:
                stack = libs.ec2_utils.get_stack().instance.stack
                email = {}
                email['from'] = 'Stamped <*****@*****.**>'
                email['to'] = '*****@*****.**'
                email['subject'] = '%s: Integrity Checker Failure' % stack

                html = '<html><body><p>Integrity checker caught the following errors:</p>'
                for k, v in warnings.iteritems():
                    html += '<hr><h3>%s</h3>' % k 
                    for e in v:
                        html += ('<p><code>%s</code></p>' % e).replace('\n','<br>')
                html += '</body></html>'

                email['body'] = html
                utils.sendEmail(email, format='html')
            except Exception as e:
                logs.warning('UNABLE TO SEND EMAIL: %s' % e)
Ejemplo n.º 31
0
def injector(url, options, specific):

    use_mcm = True
    up = componentInfo(mcm=use_mcm, soft=["mcm"])
    if not up.check():
        return
    use_mcm = up.status["mcm"]

    workflows = getWorkflows(url, status=options.wmstatus, user=options.user)
    existing = [wf.name for wf in session.query(Workflow).all()]
    ## browse for assignment-approved requests, browsed for ours, insert the diff
    for wf in workflows:
        if wf not in existing:
            print "putting", wf
            new_wf = Workflow(name=wf, status=options.setstatus, wm_status=options.wmstatus)
            session.add(new_wf)
            session.commit()
            time.sleep(1)

    existing = [wf.name for wf in session.query(Workflow).all()]

    ## passing a round of invalidation of what needs to be invalidated
    if use_mcm and (options.invalidate or True):
        invalidator(url)

    ## pick up replacements
    for wf in session.query(Workflow).filter(Workflow.status == "trouble").all():
        if specific and wf.name != specific:
            continue
        print wf.name
        wl = getWorkLoad(url, wf.name)
        familly = getWorkflowById(url, wl["PrepID"])
        true_familly = []
        for member in familly:
            if member == wf.name:
                continue
            fwl = getWorkLoad(url, member)
            if options.replace:
                if member != options.replace:
                    continue
            else:
                if fwl["RequestDate"] < wl["RequestDate"]:
                    continue
                if fwl["RequestType"] == "Resubmission":
                    continue
                if fwl["RequestStatus"] in ["None", None]:
                    continue
            true_familly.append(fwl)

        if len(true_familly) == 0:
            print wf.name, "ERROR has no replacement"
            known = []
            try:
                known = json.loads(open("no_replacement.json").read())
            except:
                pass
            if not wf.name in known:
                sendEmail(
                    "workflow in %s with no replacement" % (wl["RequestStatus"]), "%s is dangling there" % (wf.name)
                )
                known.append(wf.name)
                open("no_replacement.json", "w").write(json.dumps(known, indent=2))
            continue
        print wf.name, "has", len(familly), "familly members"
        print wf.name, "has", len(true_familly), "true familly members"

        for fwl in true_familly:
            member = fwl["RequestName"]
            new_wf = session.query(Workflow).filter(Workflow.name == member).first()
            if not new_wf:
                print "putting", member, "as replacement of", wf.name
                status = "away"
                if fwl["RequestStatus"] in ["assignment-approved"]:
                    status = "considered"
                new_wf = Workflow(name=member, status=status, wm_status=fwl["RequestStatus"])
                wf.status = "forget"
                session.add(new_wf)
            else:
                if new_wf.status == "forget":
                    continue
                print "getting", new_wf.name, "as replacement of", wf.name
                wf.status = "forget"

            for tr in session.query(Transfer).all():
                if wf.id in tr.workflows_id:
                    sw = copy.deepcopy(tr.workflows_id)
                    sw.remove(wf.id)
                    sw.append(new_wf.id)
                    tr.workflows_id = sw
                    print tr.phedexid, "got", new_wf.name
                    if new_wf.status != "away":
                        print "\t setting it considered"
                        new_wf.status = "considered"
                    session.commit()

        ## don't do that automatically
        # wf.status = 'forget'
        session.commit()
Ejemplo n.º 32
0
def assignor(url, specific=None, talk=True, options=None):
    if userLock():
        return
    if duplicateLock():
        return
    if not componentInfo().check():
        return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = siteInfo()
    NLI = newLockInfo()

    n_assigned = 0
    n_stalled = 0

    wfos = []
    if specific or options.early:
        wfos.extend(session.query(Workflow).filter(Workflow.status == "considered").all())
        wfos.extend(session.query(Workflow).filter(Workflow.status == "staging").all())
    if specific:
        wfos.extend(session.query(Workflow).filter(Workflow.status == "considered-tried").all())
    wfos.extend(session.query(Workflow).filter(Workflow.status == "staged").all())

    dataset_endpoints = json.loads(open("%s/dataset_endpoints.json" % monitor_dir).read())

    max_per_round = UC.get("max_per_round").get("assignor", None)
    max_cpuh_block = UC.get("max_cpuh_block")
    random.shuffle(wfos)
    for wfo in wfos:
        if options.limit and (n_stalled + n_assigned) > options.limit:
            break

        if max_per_round and (n_stalled + n_assigned) > max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name, specific.split(","))):
                continue
            # if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo(url, wfo.name)
        wfh.sendLog("assignor", "%s to be assigned" % wfo.name)

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput, primary, parent, secondary, sites_allowed) = wfh.getSiteWhiteList()

        ## check if by configuration we gave it a GO
        no_go = False
        if not wfh.go(log=True) and not options.go:
            n_stalled += 1
            no_go = True

        allowed_secondary = set()
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns and "secondaries" in CI.campaigns[campaign]:
                allowed_secondary.update(CI.campaigns[campaign]["secondaries"])
        if (secondary and allowed_secondary) and (set(secondary) & allowed_secondary != set(secondary)):
            wfh.sendLog("assignor", "%s is not an allowed secondary" % (", ".join(set(secondary) - allowed_secondary)))
            # sendEmail('secondary not allowed','%s is not an allowed secondary'%( ', '.join(set(secondary)-allowed_secondary)))
            sendLog(
                "assignor",
                "%s is not an allowed secondary" % (", ".join(set(secondary) - allowed_secondary)),
                level="critical",
            )
            if not options.go:
                n_stalled += 1
                no_go = True

        if no_go:
            continue

        ## check on current status for by-passed assignment
        if wfh.request["RequestStatus"] != "assignment-approved":
            if not options.test:
                wfh.sendLog("assignor", "setting %s away and skipping" % wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request["RequestStatus"]
                wfo.status = "away"
                session.commit()
                continue
            else:
                print wfo.name, wfh.request["RequestStatus"]

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version = wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog("assignor", "cannot decide on version number")
                n_stalled += 1
                wfo.status = "trouble"
                session.commit()
                continue

        original_sites_allowed = copy.deepcopy(sites_allowed)
        wfh.sendLog("assignor", "Site white list %s" % sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request["Campaign"], "SecondaryLocation", [])

        blocks = []
        if "BlockWhitelist" in wfh.request:
            blocks = wfh.request["BlockWhitelist"]
        if "RunWhitelist" in wfh.request and wfh.request["RunWhitelist"]:
            ## augment with run white list
            for dataset in primary:
                blocks = list(set(blocks + getDatasetBlocks(dataset, runs=wfh.request["RunWhitelist"])))

        wfh.sendLog("assignor", "Allowed %s" % sorted(sites_allowed))
        secondary_locations = None

        primary_aaa = options.primary_aaa
        if (
            "Campaign" in wfh.request
            and wfh.request["Campaign"] in CI.campaigns
            and "primary_AAA" in CI.campaigns[wfh.request["Campaign"]]
        ):
            primary_aaa = primary_aaa or CI.campaigns[wfh.request["Campaign"]]["primary_AAA"]
        secondary_aaa = options.secondary_aaa
        if (
            "Campaign" in wfh.request
            and wfh.request["Campaign"] in CI.campaigns
            and "secondary_AAA" in CI.campaigns[wfh.request["Campaign"]]
        ):
            secondary_aaa = secondary_aaa or CI.campaigns[wfh.request["Campaign"]]["secondary_AAA"]

        for sec in list(secondary):
            if override_sec_location:
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                sendEmail("tempting to pass sec location check", "but we cannot yet IMO")
                # pass
            if secondary_aaa:
                # just continue without checking
                continue

            presence = getDatasetPresence(url, sec)
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [site for (site, (there, frac)) in presence.items() if frac > 98.0]
            # one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations == None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            # sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [site for site in sites_allowed if SI.CE_to_SE(site) in one_secondary_locations]

        wfh.sendLog("assignor", "From secondary requirement, now Allowed%s" % sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy(
            sites_allowed
        )  ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy(sites_allowed)
        sites_with_data = copy.deepcopy(sites_allowed)
        sites_with_any_data = copy.deepcopy(sites_allowed)
        primary_locations = None
        available_fractions = {}
        set_lfn = "/store/mc"  ## by default
        endpoints = set()
        for prim in list(primary):
            if prim in dataset_endpoints:
                print "endpoints from stagor", dataset_endpoints[prim]
                endpoints.update(dataset_endpoints[prim])
            set_lfn = getLFNbase(prim)
            presence = getDatasetPresence(url, prim, only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] = getDatasetBlocksFraction(
                url, prim, sites=[SI.CE_to_SE(site) for site in sites_allowed], only_blocks=blocks
            )
            # sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            # sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [
                site
                for site in sites_with_data
                if SI.CE_to_SE(site) in [psite for (psite, (there, frac)) in presence.items() if there]
            ]
            sites_with_data = [
                site
                for site in sites_with_data
                if SI.CE_to_SE(site) in [psite for (psite, frac) in presence.items() if frac[1] > 90.0]
            ]
            sites_with_any_data = [site for site in sites_with_any_data if SI.CE_to_SE(site) in presence.keys()]
            wfh.sendLog(
                "assignor",
                "Holding the data but not allowed %s"
                % sorted(
                    list(set([se_site for se_site in presence.keys() if not SI.SE_to_CE(se_site) in sites_allowed]))
                ),
            )
            if primary_locations == None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(set(primary_locations) & set(presence.keys()))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites = []
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            # opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site)
                    for site in list(
                        (set(secondary_locations) & set(primary_locations))
                        - set([SI.CE_to_SE(site) for site in sites_allowed])
                    )
                ]
            elif primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site)
                    for site in list(set(primary_locations) - set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            else:
                opportunistic_sites = []
            wfh.sendLog("assignor", "We could be running in addition at %s" % sorted(opportunistic_sites))
            if any([osite in SI.sites_not_ready for osite in opportunistic_sites]):
                wfh.sendLog(
                    "assignor",
                    "One of the usable site is in downtime %s"
                    % ([osite in SI.sites_not_ready for osite in opportunistic_sites]),
                )
                down_time = True
                ## should this be send back to considered ?

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted, cpuh = wfh.getNCopies()
        wfh.sendLog("assignor", "we need %s CPUh" % cpuh)
        if cpuh > max_cpuh_block and not options.go:
            # sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog(
                "assignor",
                "%s requires a large numbr of CPUh %s , not assigning, please check with requester" % (wfo.name, cpuh),
                level="critical",
            )
            wfh.sendLog("assignor", "Requiring a large number of CPUh %s, not assigning" % cpuh)
            continue

        if (
            "Campaign" in wfh.request
            and wfh.request["Campaign"] in CI.campaigns
            and "maxcopies" in CI.campaigns[wfh.request["Campaign"]]
        ):
            copies_needed_from_campaign = CI.campaigns[wfh.request["Campaign"]]["maxcopies"]
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)

        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(1, copies_wanted - less_copies_than_requested)  # take one out for the efficiency
        else:
            ## find out whether there is a site in the whitelist, that is lacking jobs and reduce to 1 copy needed to get things going
            pass

        wfh.sendLog("assignor", "needed availability fraction %s" % copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        if available_fractions and not all([available >= copies_wanted for available in available_fractions.values()]):
            not_even_once = not all([available >= 1.0 for available in available_fractions.values()])
            wfh.sendLog(
                "assignor",
                "The input dataset is not available %s times, only %s" % (copies_wanted, available_fractions.values()),
            )
            if down_time and not options.go and not options.early:
                wfo.status = "considered"
                session.commit()
                wfh.sendLog("assignor", "sending back to considered because of site downtime, instead of waiting")
                # sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                sendLog(
                    "assignor",
                    "%s is not sufficiently available, due to down time of a site in the whitelist. sending back to considered."
                    % (wfo.name),
                    level="delay",
                )
                continue
                # pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open("cannot_assign.json").read())
                except:
                    pass
                if (
                    not wfo.name in known
                    and not options.limit
                    and not options.go
                    and not options.early
                    and not options.partial
                ):
                    wfh.sendLog(
                        "assignor",
                        "cannot be assigned, %s is not sufficiently available.\n %s"
                        % (wfo.name, json.dumps(available_fractions)),
                    )
                    sendEmail(
                        "cannot be assigned",
                        "%s is not sufficiently available.\n %s" % (wfo.name, json.dumps(available_fractions)),
                    )
                    known.append(wfo.name)
                    open("cannot_assign.json", "w").write(json.dumps(known, indent=2))
                n_stalled += 1
                if options.early:
                    if wfo.status == "considered":
                        wfh.sendLog("assignor", "setting considered-tried")
                        wfo.status = "considered-tried"
                        session.commit()
                    else:
                        print "tried but status is", wfo.status
                if options.partial:
                    print "Will move on with partial locations"
                else:
                    continue

        ## default back to white list to original white list with any data
        print "Allowed", sorted(sites_allowed)

        if primary_aaa:
            sites_allowed = initial_sites_allowed
            options.TrustSitelists = True
            wfh.sendLog("assignor", "Selected to read primary through xrootd %s" % sorted(sites_allowed))
        else:
            sites_allowed = sites_with_any_data
            wfh.sendLog("assignor", "Selected for any data %s" % sorted(sites_allowed))

        if secondary_aaa:
            options.TrustPUSitelists = True
            wfh.sendLog("assignor", "Reading secondary through xrootd from %s" % sorted(sites_allowed))

        ### check on endpoints for on-going transfers
        if endpoints and options.partial:
            sites_allowed = list(set(sites_allowed + [SI.SE_to_CE(s) for s in endpoints]))
            print "with added endpoints", sorted(sites_allowed)

        if not len(sites_allowed):
            wfh.sendLog("assignor", "cannot be assign with no matched sites")
            sendLog("assignor", "%s has no whitelist" % wfo.name, level="critical")
            n_stalled += 1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith("T1")]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])]

        wfh.sendLog("assignor", "Placing the output on %s" % sites_out)
        parameters = {
            "SiteWhitelist": sites_allowed,
            "NonCustodialSites": sites_out,
            "AutoApproveSubscriptionSites": list(set(sites_out)),
            "AcquisitionEra": wfh.acquisitionEra(),
            "ProcessingString": wfh.processingString(),
            "MergedLFNBase": set_lfn,
            "ProcessingVersion": version,
        }

        ## plain assignment here
        team = "production"
        if os.getenv("UNIFIED_TEAM"):
            team = os.getenv("UNIFIED_TEAM")
        if options and options.team:
            team = options.team

        if False and "T2_CH_CERN" in parameters["SiteWhitelist"]:
            ## add some check on
            ### the amount pending to HLT
            ### the size of the request
            ### the priority of the request (maybe not if we decide to overflow during runs)
            parameters["SiteWhitelist"] = ["T2_CH_CERN_HLT"]
            team = "hlt"
            ## reduce the splitting by factor of 4, regardless of type of splitting
            sendEmail("sending work to HLT", "%s was assigned to HLT" % wfo.name)

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v = getattr(options, key)
                if v != None:
                    if type(v) == str and "," in v:
                        parameters[key] = filter(None, v.split(","))
                    else:
                        parameters[key] = v

        if lheinput:
            ## throttle reading LHE article
            wfh.sendLog("assignor", "Setting the number of events per job to 500k max")
            parameters["EventsPerJob"] = 500000

        ## pick up campaign specific assignment parameters
        parameters.update(CI.parameters(wfh.request["Campaign"]))

        if not options.test:
            parameters["execute"] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check != True:
            parameters.update(split_check)
            if "EventBased" in split_check.values():
                wfh.sendLog("assignor", "Falling back to event splitting.")
                # sendEmail("Fallback to EventBased","the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"%wfo.name)
                sendLog(
                    "assignor",
                    "the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"
                    % wfo.name,
                    level="critical",
                )
            elif "EventsPerJob" in split_check.values():
                wfh.sendLog("assignor", "Modifying the number of job per event")
                # sendEmail("Modifying the job per events","the workflow %s is too heavy in number of jobs explosion"%wfo.name)
                sendLog(
                    "assignor", "the workflow %s is too heavy in number of jobs explosion" % wfo.name, level="critical"
                )

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if "PU_RD" in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi) / float(len(eventsPerLumi))
            reqJobs = 500
            if "PU_RD2" in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents / (reqJobs * 1.4))
                lumisPerJob = int(eventsPerJob / eventsPerLumi)
                if lumisPerJob == 0:
                    # sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog(
                        "assignor",
                        "%s needs to be split by event with %s per job" % (wfo.name, eventsPerJob),
                        level="critical",
                    )
                    wfh.sendLog("assignor", "%s needs to be split by event with %s per job" % (wfo.name, eventsPerJob))
                    parameters["EventsPerJob"] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl["events_per_job"] if "events_per_job" in spl else None
                    eventsPerJobEstimated = spl["avg_events_per_job"] if "avg_events_per_job" in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        # sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog(
                            "assignor", "%s was assigned with %s lumis/job" % (wfo.name, lumisPerJob), level="critical"
                        )
                        wfh.sendLog("assignor", "%s was assigned with %s lumis/job" % (wfo.name, lumisPerJob))
                        parameters["LumisPerJob"] = lumisPerJob
                    else:
                        # sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog(
                            "assignor",
                            "leaving splitting untouched for %s, please check on %s" % (pstring, wfo.name),
                            level="critical",
                        )
                        wfh.sendLog("assignor", "leaving splitting untouched for PU_RD*, please check.")

        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)

        # set status
        if not options.test:
            if result:
                wfo.status = "away"
                session.commit()
                n_assigned += 1
                wfh.sendLog("assignor", "Properly assigned\n%s" % (json.dumps(parameters, indent=2)))
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo(url, wfo.name)
                    (_, prim, _, sec) = new_wfi.getIO()
                    for secure in list(prim) + list(sec) + new_wfi.request["OutputDatasets"]:
                        ## lock all outputs flat
                        NLI.lock(secure)
                    # for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"

                    print str(e)
                    sendEmail("failed locking of output", str(e))

            else:
                print "ERROR could not assign", wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog("assignor", "Assigned %d Stalled %s" % (n_assigned, n_stalled))
Ejemplo n.º 33
0
    sys.exit(1)

for out in all_outs:
    if  out.workflow.status in ['done-unlock','done','clean','clean-out','clean-unlock']:
        out_week = int(time.strftime("%W",time.gmtime(out.date)))
        if last_week==out_week:
            (_,_,_,tier) = out.datasetname.split('/')
            ds[tier].append( out.datasetname )
            n_produced+=1

text="""Dear all,

The folowing %d datasets have been produced last week:

"""%(n_produced)


for t in sorted(ds):
    text +="%d with datatier: %s \n"%( len(ds[t]), t)
    for d in sorted(ds[t]):
        text += "\t"+d+"\n"
    text += '\n'

text+="\n\n Regards,\nthe production team\n\nThis is an automated message."

print text

sendEmail(subject, text, destination=['*****@*****.**'])
#sendEmail(subject, text)

Ejemplo n.º 34
0
def completor(url, specific):
    mlock = moduleLock(silent=True)
    if mlock(): return

    use_mcm = True
    up = componentInfo(soft=['mcm', 'wtc', 'jira'])
    if not up.check(): return
    use_mcm = up.status['mcm']
    if use_mcm:
        mcm = McMClient(dev=False)

    safe_mode = False

    CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()
    JC = JIRAClient() if up.status.get('jira', False) else None

    wfs = []
    wfs.extend(session.query(Workflow).filter(Workflow.status == 'away').all())
    wfs.extend(
        session.query(Workflow).filter(
            Workflow.status.startswith('assistance')).all())

    ## just take it in random order so that not always the same is seen
    random.shuffle(wfs)

    max_per_round = UC.get('max_per_round').get('completor', None)
    if max_per_round and not specific: wfs = wfs[:max_per_round]

    all_stuck = set()
    ## take into account what stagor was saying
    for itry in range(5):
        try:
            all_stuck.update(
                json.loads(eosRead('%s/stuck_transfers.json' %
                                   monitor_pub_dir)))
            break
        except:
            time.sleep(2)

    for itry in range(5):
        try:
            ## take into account the block that needed to be repositioned recently
            all_stuck.update([
                b.split('#')[0] for b in json.loads(
                    eosRead('%s/missing_blocks.json' % monitor_dir))
            ])
            break
        except:
            time.sleep(2)

    ## take into account all stuck block and dataset from transfer team
    all_stuck.update(getAllStuckDataset())

    good_fractions = {}
    overdoing_fractions = {}
    truncate_fractions = {}
    timeout = {}
    campaign_injection_delay = {}
    for c in CI.campaigns:
        if 'force-complete' in CI.campaigns[c]:
            good_fractions[c] = CI.campaigns[c]['force-complete']
        if 'truncate-complete' in CI.campaigns[c]:
            truncate_fractions[c] = CI.campaigns[c]['truncate-complete']
        if 'force-timeout' in CI.campaigns[c]:
            timeout[c] = CI.campaigns[c]['force-timeout']
        if 'injection-delay' in CI.campaigns[c]:
            campaign_injection_delay[c] = CI.campaigns[c]['injection-delay']
        if 'overdoing-complete' in CI.campaigns[c]:
            overdoing_fractions[c] = CI.campaigns[c]['overdoing-complete']

    long_lasting = {}

    WI = wtcInfo()
    overrides = WI.getForce()
    if use_mcm:
        ## add all workflow that mcm wants to get force completed
        mcm_force = mcm.get('/restapi/requests/forcecomplete')
        ## assuming this will be a list of actual prepids
        overrides['mcm'] = mcm_force

    print "can force complete on"
    print json.dumps(good_fractions, indent=2)
    print "can truncate complete on"
    print json.dumps(truncate_fractions, indent=2)
    print "can overide on"
    print json.dumps(overrides, indent=2)
    max_force = UC.get("max_force_complete")
    max_priority = UC.get("max_tail_priority")
    injection_delay_threshold = UC.get("injection_delay_threshold")
    injection_delay_priority = UC.get("injection_delay_priority")
    delay_priority_increase = UC.get("delay_priority_increase")
    default_fraction_overdoing = UC.get('default_fraction_overdoing')

    set_force_complete = set()

    # priority and time above which to fire a JIRA
    jira_priority_and_delays = {
        110000: 21,
        90000: 28,
        #     80000 : 60,
        #0 : 90
    }

    for wfo in wfs:
        if specific and not specific in wfo.name: continue

        print "looking at", wfo.name

        ## get all of the same
        wfi = workflowInfo(url, wfo.name)
        pids = wfi.getPrepIDs()
        skip = False
        campaigns = wfi.getCampaigns()

        #if not any([c in good_fractions.keys() for c in campaigns]): skip=True
        #if not any([c in truncate_fractions.keys() for c in campaigns]): skip=True

        for user, spec in overrides.items():
            if not spec: continue
            spec = filter(None, spec)
            if not wfi.request['RequestStatus'] in [
                    'force-complete', 'completed'
            ]:
                if any(s in wfo.name
                       for s in spec) or (wfo.name in spec) or any(
                           pid in spec for pid in pids) or any(s in pids
                                                               for s in spec):

                    wfi = workflowInfo(url, wfo.name)
                    forceComplete(url, wfi)
                    skip = True
                    wfi.notifyRequestor(
                        "The workflow %s was force completed by request of %s"
                        % (wfo.name, user),
                        do_batch=False)
                    wfi.sendLog(
                        'completor',
                        '%s is asking for %s to be force complete' %
                        (user, wfo.name))
                    break

        if wfo.status.startswith('assistance'): skip = True

        if skip:
            continue

        priority = wfi.request['RequestPriority']

        if not 'Campaign' in wfi.request: continue

        if not wfi.request['RequestStatus'] in [
                'acquired', 'running-open', 'running-closed'
        ]:
            continue

        ## until we can map the output to task ...
        output_per_task = wfi.getOutputPerTask(
        )  ## can use that one, and follow mapping
        good_fraction_per_out = {}
        good_fraction_nodelay_per_out = {}
        truncate_fraction_per_out = {}
        #allowed_delay_per_out = {}
        for task, outs in output_per_task.items():
            task_campaign = wfi.getCampaignPerTask(task)
            for out in outs:
                good_fraction_per_out[out] = good_fractions.get(
                    task_campaign, 1000.)
                good_fraction_nodelay_per_out[out] = overdoing_fractions.get(
                    task_campaign, default_fraction_overdoing)
                truncate_fraction_per_out[out] = truncate_fractions.get(
                    task_campaign, 1000.)
                #allowed_delay_per_out[out] = timeout.get(task_campaign, 14)

        #print "force at", json.dumps( good_fraction_per_out, indent=2)
        #print "truncate at",json.dumps( truncate_fraction_per_out, indent=2)

        now = time.mktime(time.gmtime()) / (60 * 60 * 24.)

        priority_log = filter(lambda change: change['Priority'] == priority,
                              wfi.request.get('PriorityTransition', []))
        if not priority_log:
            print "\tHas no priority log"
            priority_delay = 0
        else:
            then = max([change['UpdateTime']
                        for change in priority_log]) / (60. * 60. * 24.)
            priority_delay = now - then  ## in days
            print "priority was set to", priority, priority_delay, "[days] ago"

        running_log = filter(
            lambda change: change["Status"
                                  ] in ["running-open", "running-closed"],
            wfi.request['RequestTransition'])
        if not running_log:
            print "\tHas no running log"
            delay = 0
        else:
            then = max([change['UpdateTime']
                        for change in running_log]) / (60. * 60. * 24.)
            delay = now - then  ## in days

        #further check on delays
        cpuh = wfi.getComputingTime(unit='d')
        wfi.sendLog(
            'completor',
            "Requires %.1f [CPUd], running since %.1f [day], last priority change to %d done %.1f [day] ago"
            % (cpuh, delay, priority, priority_delay))
        if priority_delay != 0 and priority_delay < delay:
            ## regardless when it started running, set the delay to when priority was changed last
            delay = priority_delay

        ## this is supposed to be the very initial request date, inherited from clones
        injection_delay = None
        original = wfi
        if 'OriginalRequestName' in original.request:
            ## go up the clone chain
            original = workflowInfo(url,
                                    original.request['OriginalRequestName'])
        injected_log = filter(
            lambda change: change["Status"] in ["assignment-approved"],
            original.request['RequestTransition'])
        if injected_log:
            injected_on = injected_log[-1]['UpdateTime'] / (60. * 60. * 24.)
            injection_delay = now - injected_on

        delay_for_priority_increase = injection_delay
        #delay_for_priority_increase = delay

        (w, d) = divmod(delay, 7)
        print "\t" * int(
            w) + "Running since", delay, "[days] priority=", priority

        pop_a_jira = False
        ping_on_jira = 7 * (24 * 60 * 60)  # 7 days
        for jp, jd in jira_priority_and_delays.items():
            if priority >= jp and delay >= jd: pop_a_jira = True

        if pop_a_jira and JC:
            j, reopened, just_created = JC.create_or_last(
                prepid=wfi.request['PrepID'],
                priority=wfi.request['RequestPriority'],
                label='Late',
                reopen=True)
            last_time = JC.last_time(j)
            since_last_ping = time.mktime(time.gmtime()) - last_time
            if since_last_ping > ping_on_jira or just_created:
                j_comment = "Running since %.1f [days] at priority %d" % (
                    delay, priority)
                JC.comment(j.key, j_comment)

        if delay_for_priority_increase != None and delay_for_priority_increase > injection_delay_threshold and priority >= injection_delay_priority:
            quantized = 5000  ## quantize priority
            tail_cutting_priority = wfi.request['InitialPriority'] + int(
                (delay_priority_increase *
                 (delay_for_priority_increase - injection_delay_threshold) / 7)
                / quantized) * quantized
            tail_cutting_priority += 101  ## to signal it is from this mechanism
            tail_cutting_priority = min(
                400000, tail_cutting_priority)  ## never go above 400k priority
            tail_cutting_priority = max(
                tail_cutting_priority,
                priority)  ## never go below the current value

            if priority < tail_cutting_priority:
                if max_priority:
                    sendLog(
                        'completor',
                        "%s Injected since %s [days] priority=%s, increasing to %s"
                        % (wfo.name, delay_for_priority_increase, priority,
                           tail_cutting_priority),
                        level='critical')
                    wfi.sendLog(
                        'completor',
                        'bumping priority to %d for being injected since %s' %
                        (tail_cutting_priority, delay_for_priority_increase))

                    reqMgrClient.changePriorityWorkflow(
                        url, wfo.name, tail_cutting_priority)
                    max_priority -= 1
                else:
                    sendLog(
                        'completor',
                        "%s Injected since %s [days] priority=%s, would like to increase to %s"
                        % (wfo.name, delay_for_priority_increase, priority,
                           tail_cutting_priority),
                        level='critical')
                    wfi.sendLog(
                        'completor',
                        'would like to bump priority to %d for being injected since %s'
                        % (tail_cutting_priority, delay_for_priority_increase))

                    print "Could be changing the priority to higher value, but too many already were done"

        _, prim, _, _ = wfi.getIO()
        is_stuck = all_stuck & prim
        if is_stuck:
            wfi.sendLog('completor', '%s is stuck' % ','.join(is_stuck))

        monitor_delay = 7
        allowed_delay = max([timeout.get(c, 14) for c in campaigns])

        monitor_delay = min(monitor_delay, allowed_delay)

        ### just skip if too early, just for the sake of not computing the completion fraction just now.
        # maybe this is fast enough that we can do it for all
        if delay <= monitor_delay:
            print "not enough time has passed yet"
            continue

        long_lasting[wfo.name] = {
            "delay": delay,
            "injection_delay": injection_delay
        }

        percent_completions = wfi.getCompletionFraction(caller='completor')

        if not percent_completions:
            sendLog('completor',
                    '%s has no output at all' % wfo.name,
                    level='critical')
            continue

        is_over_allowed_delay = (all([
            percent_completions[out] >= good_fraction_per_out.get(out, 1000.)
            for out in percent_completions
        ]) and delay >= allowed_delay)
        is_over_truncation_delay = (is_stuck and (all([
            percent_completions[out] >= truncate_fraction_per_out.get(
                out, 1000.) for out in percent_completions
        ])) and delay >= allowed_delay)
        is_over_completion = (all([
            percent_completions[out] >= good_fraction_nodelay_per_out.get(
                out, 1000.) for out in percent_completions
        ]))

        if is_over_completion:
            wfi.sendLog(
                'completor', "all is over completed %s\n %s" %
                (json.dumps(good_fraction_nodelay_per_out, indent=2),
                 json.dumps(percent_completions, indent=2)))
        elif is_over_allowed_delay:
            wfi.sendLog(
                'completor', "all is above %s \n%s" %
                (json.dumps(good_fraction_per_out, indent=2),
                 json.dumps(percent_completions, indent=2)))
        elif is_over_truncation_delay:
            wfi.sendLog(
                'completor',
                "all is above %s truncation level, and the input is stuck\n%s"
                % (json.dumps(truncate_fraction_per_out, indent=2),
                   json.dumps(percent_completions, indent=2)))

        else:
            long_lasting[wfo.name].update({
                'completion':
                sum(percent_completions.values()) / len(percent_completions),
                'completions':
                percent_completions
            })

            ## do something about the agents this workflow is in
            long_lasting[wfo.name]['agents'] = wfi.getAgents()
            wfi.sendLog(
                'completor',
                "%s not over bound \ncomplete at %s \n truncate at %s \nRunning %s"
                % (json.dumps(percent_completions, indent=2),
                   json.dumps(good_fraction_per_out, indent=2),
                   json.dumps(truncate_fraction_per_out, indent=2),
                   json.dumps(long_lasting[wfo.name]['agents'], indent=2)))
            continue

        #for output in  percent_completions:
        #    completions[output]['injected'] = then

        ran_at = wfi.request['SiteWhitelist']

        wfi.sendLog('completor', "Required %s, time spend %s" % (cpuh, delay))

        ##### WILL FORCE COMPLETE BELOW
        # only really force complete after n days

        ## find ACDCs that might be running
        if max_force > 0:
            print "going for force-complete of", wfo.name
            if not safe_mode:
                forceComplete(url, wfi)
                set_force_complete.add(wfo.name)
                wfi.sendLog('completor', 'going for force completing')
                wfi.notifyRequestor(
                    "The workflow %s was force completed for running too long"
                    % wfo.name)
                max_force -= 1
            else:
                sendEmail(
                    'completor',
                    'The workflow %s is ready for force complete, but completor is in safe mode'
                    % wfo.name)
        else:
            wfi.sendLog(
                'completor',
                "too many completion this round, cannot force complete")

    if set_force_complete:
        sendLog(
            'completor', 'The followings were set force-complete \n%s' %
            ('\n'.join(set_force_complete)))

    #open('%s/completions.json'%monitor_dir,'w').write( json.dumps( completions , indent=2))
    text = "These have been running for long"

    #open('%s/longlasting.json'%monitor_dir,'w').write( json.dumps( long_lasting, indent=2 ))
    eosFile('%s/longlasting.json' % monitor_dir,
            'w').write(json.dumps(long_lasting, indent=2)).close()

    for wf, info in sorted(long_lasting.items(),
                           key=lambda tp: tp[1]['delay'],
                           reverse=True):
        delay = info['delay']
        text += "\n %s : %s days" % (wf, delay)
        if 'completion' in info:
            text += " %d%%" % (info['completion'] * 100)

    print text
Ejemplo n.º 35
0
    logs= filter(lambda change : change["Status"]==status, wf['RequestTransition'])
    if logs:
        return logs[-1]['UpdateTime']
    else:
        return None

delays={'assignment-approved' : (7,14),
        'new':(7,14),
        'completed':(14,21),
        'closed-out':(14,21),
        }

warnings=defaultdict(set)
for checkin,(warn,timeout) in delays.items():
    wfs = getWorkflows(url, checkin, user=None, details=True)
    for wf in wfs:
        if not 'backfill' in wf['RequestName'].lower(): continue
        transition = transitiontime(wf,checkin)
        if transition and (now - transition)>(timeout*24*60*60):
            ## that can go away
            print wf['RequestName'],"is old enough to be removed",wf['RequestStatus']
            reqMgrClient.invalidateWorkflow(url, wf['RequestName'], current_status=wf['RequestStatus'])
        elif transition and (now - transition)>(warn*24*60*60):
            ## warn requester
            print wf['RequestName'],"is old enough to be removed",wf['RequestStatus']
            warnings[wf['Requestor']].add( wf['RequestName'] )

for who in warnings:
    sendEmail('Old Backfill in the system','The following backfill should be removed or moved to rejected/announced\n\n%s'%('\n'.join(sorted(warnings[who]))), destination=[who+'@cern.ch'])

Ejemplo n.º 36
0
def assignor(url, specific=None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    #if notRunningBefore( 'stagor' ): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = global_SI
    #LI = lockInfo()
    NLI = newLockInfo()

    n_assigned = 0
    n_stalled = 0

    wfos = []
    if specific or options.early:
        wfos.extend(
            session.query(Workflow).filter(
                Workflow.status == 'considered').all())
        wfos.extend(
            session.query(Workflow).filter(Workflow.status == 'staging').all())
    if specific:
        wfos.extend(
            session.query(Workflow).filter(
                Workflow.status == 'considered-tried').all())
    wfos.extend(
        session.query(Workflow).filter(Workflow.status == 'staged').all())
    #if specific:
    #    #wfos = session.query(Workflow).filter(Workflow.name==specific).all()
    #    wfos = session.query(Workflow).filter(Workflow.name.contains(specific)).all()
    #if not wfos:
    #    if specific:
    #        wfos = session.query(Workflow).filter(Workflow.status=='considered').all()
    #        wfos.extend( session.query(Workflow).filter(Workflow.status=='staging').all())
    #    wfos.extend(session.query(Workflow).filter(Workflow.status=='staged').all())

    random.shuffle(wfos)
    for wfo in wfos:
        if options.limit and (n_stalled + n_assigned) > options.limit:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name, specific.split(','))):
                continue
            #if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo(url, wfo.name)
        wfh.sendLog('assignor', "%s to be assigned" % wfo.name)

        ## check if by configuration we gave it a GO
        if not CI.go(wfh.request['Campaign']) and not options.go:
            wfh.sendLog('assignor', "No go for %s" % wfh.request['Campaign'])
            n_stalled += 1
            continue

        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] != 'assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',
                            "setting %s away and skipping" % wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name, wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version = wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor', "cannot decide on version number")
                n_stalled += 1
                wfo.status = 'trouble'
                session.commit()
                continue

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput, primary, parent, secondary,
         sites_allowed) = wfh.getSiteWhiteList()

        original_sites_allowed = copy.deepcopy(sites_allowed)
        wfh.sendLog('assignor', "Site white list %s" % sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request['Campaign'],
                                       'SecondaryLocation', [])

        blocks = []
        if 'BlockWhitelist' in wfh.request:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(
                    set(blocks + getDatasetBlocks(
                        dataset, runs=wfh.request['RunWhitelist'])))

        wfh.sendLog('assignor', "Allowed %s" % sorted(sites_allowed))
        secondary_locations = None
        for sec in list(secondary):
            if override_sec_location:
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                sendEmail("tempting to pass sec location check",
                          "but we cannot yet IMO")
                #pass

            presence = getDatasetPresence(url, sec)
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [
                site for (site, (there, frac)) in presence.items()
                if frac > 98.
            ]
            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations == None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(
                    set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [
                site for site in sites_allowed
                if SI.CE_to_SE(site) in one_secondary_locations
            ]

        wfh.sendLog(
            'assignor', "From secondary requirement, now Allowed%s" %
            sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy(
            sites_allowed
        )  ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy(sites_allowed)
        sites_with_data = copy.deepcopy(sites_allowed)
        sites_with_any_data = copy.deepcopy(sites_allowed)
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc'  ## by default
        for prim in list(primary):
            set_lfn = getLFNbase(prim)
            presence = getDatasetPresence(url, prim, only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] = getDatasetBlocksFraction(
                url,
                prim,
                sites=[SI.CE_to_SE(site) for site in sites_allowed],
                only_blocks=blocks)
            #sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            #sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in [
                    psite for (psite, (there, frac)) in presence.items()
                    if there
                ]
            ]
            sites_with_data = [
                site for site in sites_with_data if SI.CE_to_SE(site) in
                [psite for (psite, frac) in presence.items() if frac[1] > 90.]
            ]
            sites_with_any_data = [
                site for site in sites_with_any_data
                if SI.CE_to_SE(site) in presence.keys()
            ]
            wfh.sendLog(
                'assignor', "Holding the data but not allowed %s" % sorted(
                    list(
                        set([
                            se_site for se_site in presence.keys()
                            if not SI.SE_to_CE(se_site) in sites_allowed
                        ]))))
            if primary_locations == None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(
                    set(primary_locations) & set(presence.keys()))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites = []
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in
                    list((set(secondary_locations) & set(primary_locations)) -
                         set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            elif primary_locations:
                opportunistic_sites = [
                    SI.SE_to_CE(site) for site in list(
                        set(primary_locations) -
                        set([SI.CE_to_SE(site) for site in sites_allowed]))
                ]
            else:
                opportunistic_sites = []
            wfh.sendLog(
                'assignor', "We could be running in addition at %s" %
                sorted(opportunistic_sites))
            if any(
                [osite in SI.sites_not_ready
                 for osite in opportunistic_sites]):
                wfh.sendLog(
                    'assignor', "One of the usable site is in downtime %s" % ([
                        osite in SI.sites_not_ready
                        for osite in opportunistic_sites
                    ]))
                down_time = True
                ## should this be send back to considered ?
        """
        if available_fractions and not all([available>=1. for available in available_fractions.values()]):
            print "The input dataset is not located in full over sites"
            print json.dumps(available_fractions)
            if not options.test and not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known:
                    sendEmail( "cannot be assigned","%s is not full over sites \n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append( wfo.name )
                    open('cannot_assign.json','w').write(json.dumps( known, indent=2))
                n_stalled+=1
                continue ## skip skip skip
        """

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted, cpuh = wfh.getNCopies()
        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[
                    wfh.request['Campaign']]:
            copies_needed_from_campaign = CI.campaigns[
                wfh.request['Campaign']]['maxcopies']
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)

        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(
                1, copies_wanted -
                less_copies_than_requested)  # take one out for the efficiency

        wfh.sendLog('assignor',
                    "needed availability fraction %s" % copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        if available_fractions and not all([
                available >= copies_wanted
                for available in available_fractions.values()
        ]):
            not_even_once = not all([
                available >= 1. for available in available_fractions.values()
            ])
            wfh.sendLog(
                'assignor',
                "The input dataset is not available %s times, only %s" %
                (copies_wanted, available_fractions.values()))
            if down_time and not options.go and not options.early:
                wfo.status = 'considered'
                session.commit()
                wfh.sendLog(
                    'assignor',
                    "sending back to considered because of site downtime, instead of waiting"
                )
                sendEmail(
                    "cannot be assigned due to downtime",
                    "%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."
                    % wfo.name)
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known and not options.limit and not options.go and not options.early:
                    wfh.sendLog(
                        'assignor',
                        "cannot be assigned, %s is not sufficiently available.\n %s"
                        % (wfo.name, json.dumps(available_fractions)))
                    sendEmail(
                        "cannot be assigned",
                        "%s is not sufficiently available.\n %s" %
                        (wfo.name, json.dumps(available_fractions)))
                    known.append(wfo.name)
                    open('cannot_assign.json',
                         'w').write(json.dumps(known, indent=2))
                n_stalled += 1
                if options.early:
                    if wfo.status == 'considered':
                        wfh.sendLog('assignor', "setting considered-tried")
                        wfo.status = 'considered-tried'
                        session.commit()
                    else:
                        print "tried but status is", wfo.status
                continue

        ## default back to white list to original white list with any data
        print "Allowed", sites_allowed
        if options.primary_aaa:
            sites_allowed = initial_sites_allowed
            #options.useSiteListAsLocation = True
            options.TrustSitelists = True
        else:
            sites_allowed = sites_with_any_data
            wfh.sendLog('assignor',
                        "Selected for any data %s" % sorted(sites_allowed))

        if options.restrict:
            print "Allowed", sites_allowed
            sites_allowed = sites_with_any_data
            print "Selected", sites_allowed
        else:
            if set(sites_with_data) != set(sites_allowed):
                ## the data is not everywhere we wanted to run at : enable aaa
                print "Sites with 90% data not matching site white list (block choping!)"
                print "Resorting to AAA reading for", list(
                    set(sites_allowed) - set(sites_with_data)), "?"
                print "Whitelist site with any data", list(
                    set(sites_allowed) - set(sites_with_any_data))
                #options.useSiteListAsLocation = True
                #print "Not commissioned yet"
                #continue
            #print "We could be running at",opportunistic_sites,"in addition"
            ##sites_allowed = list(set(sites_allowed+ opportunistic_sites))

        if not len(sites_allowed):
            wfh.sendLog('assignor', "cannot be assign with no matched sites")
            sendEmail("cannot be assigned", "%s has no whitelist" % (wfo.name))
            n_stalled += 1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [
                SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])
            ]

        ## one last modification now that we know we can assign, and to make sure all ressource can be used by the request : set all ON sites to whitelist
        ###sites_allowed = original_sites_allowed ## not needed, afterall as secondary jobs go their own ways

        wfh.sendLog('assignor', "Placing the output on %s" % sites_out)
        parameters = {
            'SiteWhitelist': sites_allowed,
            #'CustodialSites' : sites_custodial,
            'NonCustodialSites': sites_out,
            'AutoApproveSubscriptionSites': list(set(sites_out)),
            'AcquisitionEra': wfh.acquisitionEra(),
            'ProcessingString': wfh.processingString(),
            'MergedLFNBase': set_lfn,
            'ProcessingVersion': version,
        }

        ## plain assignment here
        team = 'production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team

        ## high priority team agent
        #if wfh.request['RequestPriority'] >= 100000 and (wfh.request['TimePerEvent']*int(wfh.getRequestNumEvents()))/(8*3600.) < 10000:
        #    team = 'highprio'
        #    sendEmail("sending work with highprio team","%s"% wfo.name, destination=['*****@*****.**'])

        ## SDSC redirection
        #if "T2_US_UCSD" in sites_with_data and random.random() < -0.5 and wfh.request['Campaign']=='RunIISpring15DR74' and int(wfh.getRequestNumEvents()) < 600000 and not any([out.endswith('RAW') for out in wfh.request['OutputDatasets']]):
        #    ## consider SDSC
        #    parameters['SiteWhitelist'] = ['T2_US_UCSD','T3_US_SDSC']
        #    parameters['useSiteListAsLocation'] = True
        #    team = 'allocation-based'
        #    sendEmail("sending work to SDSC","%s was assigned to SDSC/UCSD"% wfo.name, destination=['*****@*****.**'])

        ## SDSC redirection
        #if wfh.request['Campaign']==R'unIIWinter15GS' and random.random() < -1.0:
        #    parameters['SiteWhitelist'] = ['T3_US_SDSC']
        #    team = 'allocation-based'
        #    sendEmail("sending work to SDSC","%s was assigned to SDSC"% wfo.name, destination=['*****@*****.**'])

        if False and 'T2_CH_CERN' in parameters['SiteWhitelist']:
            ## add some check on
            ### the amount pending to HLT
            ### the size of the request
            ### the priority of the request (maybe not if we decide to overflow during runs)
            parameters['SiteWhitelist'] = ['T2_CH_CERN_HLT']
            team = 'hlt'
            ## reduce the splitting by factor of 4, regardless of type of splitting
            sendEmail("sending work to HLT",
                      "%s was assigned to HLT" % wfo.name)

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v = getattr(options, key)
                if v != None:
                    if type(v) == str and ',' in v:
                        parameters[key] = filter(None, v.split(','))
                    else:
                        parameters[key] = v

        ## pick up campaign specific assignment parameters
        parameters.update(CI.parameters(wfh.request['Campaign']))

        if not options.test:
            parameters['execute'] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check != True:
            parameters.update(split_check)
            if 'EventBased' in split_check.values():
                wfh.sendLog('assignor', "Falling back to event splitting.")
                sendEmail(
                    "Fallback to EventBased",
                    "the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"
                    % wfo.name)
            elif 'EventsPerJob' in split_check.values():
                wfh.sendLog('assignor',
                            "Modifying the number of job per event")
                sendEmail(
                    "Modifying the job per events",
                    "the workflow %s is too heavy in number of jobs explosion"
                    % wfo.name)

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi) / float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents / (reqJobs * 1.4))
                lumisPerJob = int(eventsPerJob / eventsPerLumi)
                if lumisPerJob == 0:
                    sendEmail(
                        "issue with event splitting for run-dependent MC",
                        "%s needs to be split by event with %s per job" %
                        (wfo.name, eventsPerJob))
                    wfh.sendLog(
                        'assignor',
                        "%s needs to be split by event with %s per job" %
                        (wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl[
                        'events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl[
                        'avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        sendEmail(
                            "setting lumi splitting for run-dependent MC",
                            "%s was assigned with %s lumis/job" %
                            (wfo.name, lumisPerJob))
                        wfh.sendLog(
                            'assignor', "%s was assigned with %s lumis/job" %
                            (wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        sendEmail("leaving splitting untouched for PU_RD*",
                                  "please check on " + wfo.name)
                        wfh.sendLog(
                            'assignor',
                            "leaving splitting untouched for PU_RD*, please check."
                        )
        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)

        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned += 1
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo(url, wfo.name)
                    (_, prim, _, sec) = new_wfi.getIO()
                    for secure in list(prim) + list(
                            sec) + new_wfi.request['OutputDatasets']:
                        ## lock all outputs flat
                        NLI.lock(secure)
                    #for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"

                    print str(e)
                    sendEmail("failed locking of output", str(e))

            else:
                print "ERROR could not assign", wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor', "Assigned %d Stalled %s" % (n_assigned, n_stalled))
Ejemplo n.º 37
0
    server.starttls()
    message = "New Delta Text password: "******"UPDATE secretary SET password = %s WHERE ID = %s ",
                   (hashed_pwd, 1))
    cnx.commit()

    # Logging in to server
    server.login("*****@*****.**", "password")

    # Send the email
    try:
        sendEmail()
    except:
        print "<p>There was a problem sending the password to emails</p>"
    else:
        print "<p>New Password Sent to your emails</p>"
    print "<a href='http://localhost/secretary.html'>Return to Log In</a>"


# If user clicks 'Change Password'
if 'changeP' in form:
    changePass("")
if 'submitP' in form and 'oldpw' not in form:
    changePass("Must Enter Current Password")
elif 'submitP' in form and 'newpw' not in form or 'submitP' in form and \
                                                  'newpw2' not in form:
    changePass("Must Enter New Password")
Ejemplo n.º 38
0
def stagor(url, specific=None, options=None):

    if not componentInfo().check(): return
    SI = siteInfo()
    CI = campaignInfo()
    UC = unifiedConfiguration()

    TS = transferStatuses()
    cached_transfer_statuses = TS.content()
    transfer_statuses = {}

    done_by_wf_id = {}
    done_by_input = {}
    completion_by_input = {}
    good_enough = 100.0

    lost_blocks = json.loads(
        eosRead('%s/lost_blocks_datasets.json' % monitor_dir))
    lost_files = json.loads(
        eosRead('%s/lost_files_datasets.json' % monitor_dir))
    known_lost_blocks = {}
    known_lost_files = {}
    for dataset in set(lost_blocks.keys() + lost_files.keys()):
        b, f = findLostBlocksFiles(url, dataset)
        if dataset in lost_blocks and not b:
            print dataset, "has no really lost blocks"
        else:
            known_lost_blocks[dataset] = [i['name'] for i in b]

        if dataset in lost_files and not f:
            print dataset, "has no really lost files"
        else:
            known_lost_files[dataset] = [i['name'] for i in f]

    def time_point(label="", sub_lap=False):
        now = time.mktime(time.gmtime())
        nows = time.asctime(time.gmtime())

        print "Time check (%s) point at : %s" % (label, nows)
        print "Since start: %s [s]" % (now - time_point.start)
        if sub_lap:
            print "Sub Lap : %s [s]" % (now - time_point.sub_lap)
            time_point.sub_lap = now
        else:
            print "Lap : %s [s]" % (now - time_point.lap)
            time_point.lap = now
            time_point.sub_lap = now

    time_point.sub_lap = time_point.lap = time_point.start = time.mktime(
        time.gmtime())

    time_point("Check cached transfer")

    ## collect all datasets that are needed for wf in staging, correcting the status of those that are not really in staging
    wfois = []
    needs = defaultdict(list)
    needs_by_priority = defaultdict(list)
    for wfo in session.query(Workflow).filter(
            Workflow.status == 'staging').all():
        wfi = workflowInfo(url, wfo.name)
        if wfi.request['RequestStatus'] in [
                'running-open', 'running-closed', 'completed', 'assigned',
                'acquired'
        ]:
            wfi.sendLog('stagor',
                        "is in status %s" % wfi.request['RequestStatus'])
            wfo.status = 'away'
            session.commit()
            continue
        if not wfi.request['RequestStatus'] in ['assignment-approved']:
            ## should be setting 'away' too
            ## that usually happens for relvals
            if wfi.request['RequestStatus'] in [
                    'rejected', 'aborted', 'aborted-completed',
                    'aborted-archived', 'rejected-archived'
            ] and wfi.isRelval():
                wfo.status = 'forget'
                session.commit()
                continue
            else:
                print wfo.name, "is", wfi.request['RequestStatus']
                #sendEmail("wrong status in staging. debug","%s is in %s, should set away."%(wfo.name,wfi.request['RequestStatus']))
                sendLog("stagor",
                        "%s is in %s, set away" %
                        (wfo.name, wfi.request['RequestStatus']),
                        level='critical')
                wfo.status = 'away'
                session.commit()
                continue

        wfois.append((wfo, wfi))
        _, primaries, _, secondaries = wfi.getIO()
        for dataset in list(primaries) + list(secondaries):
            needs[wfo.name].append(dataset)
            done_by_input[dataset] = {}
            completion_by_input[dataset] = {}
            needs_by_priority[wfi.request['RequestPriority']].append(dataset)
            wfi.sendLog('stagor', '%s needs %s' % (wfo.name, dataset))

    time_point("Check staging workflows")

    open('%s/dataset_requirements.json' % monitor_dir,
         'w').write(json.dumps(needs, indent=2))
    for prio in needs_by_priority:
        needs_by_priority[prio] = list(set(needs_by_priority[prio]))
    open('%s/dataset_priorities.json' % monitor_dir,
         'w').write(json.dumps(needs_by_priority, indent=2))

    dataset_endpoints = defaultdict(set)
    endpoint_in_downtime = defaultdict(set)
    #endpoint_completed = defaultdict(set)
    endpoint_incompleted = defaultdict(set)
    #endpoint = defaultdict(set)
    send_back_to_considered = set()

    ## first check if anything is inactive
    all_actives = set([
        transfer.phedexid for transfer in session.query(TransferImp).filter(
            TransferImp.active).all()
    ])
    for active_phedexid in all_actives:
        skip = True
        transfers_phedexid = session.query(TransferImp).filter(
            TransferImp.phedexid == active_phedexid).all()
        for imp in transfers_phedexid:
            if imp.workflow.status == 'staging':
                skip = False
                sendLog(
                    'stagor', "\t%s is staging for %s" %
                    (imp.phedexid, imp.workflow.name))
        if skip:
            sendLog('stagor', "setting %s inactive" % active_phedexid)
            for imp in transfers_phedexid:
                imp.active = False
        session.commit()

    all_actives = sorted(
        set([
            transfer.phedexid for transfer in session.query(
                TransferImp).filter(TransferImp.active).all()
        ]))
    for phedexid in all_actives:

        if specific: continue

        ## check on transfer completion
        not_cached = False
        if phedexid in cached_transfer_statuses:
            ### use a cache for transfer that already looked done
            sendLog('stagor', "read %s from cache" % phedexid)
            checks = cached_transfer_statuses[phedexid]
        else:
            ## I actually would like to avoid that all I can
            sendLog('stagor',
                    'Performing spurious transfer check on %s' % phedexid,
                    level='critical')
            checks = checkTransferStatus(url, phedexid, nocollapse=True)
            try:
                print json.dumps(checks, indent=2)
            except:
                print checks

            if not checks:
                ## this is going to bias quite heavily the rest of the code. we should abort here
                #sendLog('stagor','Ending stagor because of skewed input from checkTransferStatus', level='critical')
                #return False
                sendLog(
                    'stagor',
                    'Stagor has got a skewed input from checkTransferStatus',
                    level='critical')
                checks = {}
                pass
            else:
                TS.add(phedexid, checks)

        time_point("Check transfer status %s" % phedexid, sub_lap=True)

        if not specific:
            for dsname in checks:
                if not dsname in done_by_input: done_by_input[dsname] = {}
                if not dsname in completion_by_input:
                    completion_by_input[dsname] = {}
                done_by_input[dsname][phedexid] = all(
                    map(lambda i: i >= good_enough, checks[dsname].values()))
                completion_by_input[dsname][phedexid] = checks[dsname].values()
        if checks:
            sendLog(
                'stagor', "Checks for %s are %s" %
                (phedexid, [node.values() for node in checks.values()]))
            done = all(
                map(
                    lambda i: i >= good_enough,
                    list(
                        itertools.chain.from_iterable(
                            [node.values() for node in checks.values()]))))
        else:
            ## it is empty, is that a sign that all is done and away ?
            if not_cached:
                print "Transfer status was not cached"
            else:
                print "ERROR with the scubscriptions API of ", phedexid
                print "Most likely something else is overiding the transfer request. Need to work on finding the replacement automatically, if the replacement exists"
            done = False

        transfers_phedexid = session.query(TransferImp).filter(
            TransferImp.phedexid == phedexid).all()
        for imp in transfers_phedexid:
            tr_wf = imp.workflow
            if tr_wf:  # and tr_wf.status == 'staging':
                if not tr_wf.id in done_by_wf_id: done_by_wf_id[tr_wf.id] = {}
                done_by_wf_id[tr_wf.id][phedexid] = done
            if done:
                imp.active = False
                session.commit()

        for ds in checks:
            for s, v in checks[ds].items():
                dataset_endpoints[ds].add(s)

        if done:
            sendLog('stagor', "%s is done" % phedexid)
            TS.add(phedexid, checks)
        else:
            sendLog(
                'stagor',
                "%s is not finished %s" % (phedexid, pprint.pformat(checks)))
            ##pprint.pprint( checks )
            ## check if the destination is in down-time
            for ds in checks:
                sites_incomplete = [
                    SI.SE_to_CE(s) for s, v in checks[ds].items()
                    if v < good_enough
                ]
                sites_incomplete_down = [
                    s for s in sites_incomplete if not s in SI.sites_ready
                ]
                ## no space means no transfer should go there : NO, it does not work in the long run
                #sites_incomplete_down = [SI.SE_to_CE(s) for s,v in checks[ds].items() if (v<good_enough and (SI.disk[s]==0 or (not SI.SE_to_CE(s) in SI.sites_ready)))]

                if sites_incomplete_down:
                    sendLog(
                        'stagor',
                        "%s are in downtime, while waiting for %s to get there"
                        % (",".join(sites_incomplete_down), ds))
                    endpoint_in_downtime[ds].update(sites_incomplete_down)
                if sites_incomplete:
                    endpoint_incompleted[ds].update(sites_incomplete)

    time_point("Check on-going transfers")

    print "End points"
    for k in dataset_endpoints:
        dataset_endpoints[k] = list(dataset_endpoints[k])
    print json.dumps(dataset_endpoints, indent=2)

    print "End point in down time"
    for k in endpoint_in_downtime:
        endpoint_in_downtime[k] = list(endpoint_in_downtime[k])
    print json.dumps(endpoint_in_downtime, indent=2)

    print "End point incomplete in down time"
    for k in endpoint_incompleted:
        endpoint_incompleted[k] = list(endpoint_incompleted[k])
    print json.dumps(endpoint_incompleted, indent=2)

    #open('%s/transfer_statuses.json'%monitor_dir,'w').write( json.dumps( transfer_statuses, indent=2))
    eosFile('%s/transfer_statuses.json' % monitor_dir,
            'w').write(json.dumps(TS.content(), indent=2)).close()
    eosFile('%s/dataset_endpoints.json' % monitor_dir,
            'w').write(json.dumps(dataset_endpoints, indent=2)).close()

    already_stuck = json.loads(
        eosRead('%s/stuck_transfers.json' % monitor_pub_dir)).keys()
    already_stuck.extend(getAllStuckDataset())

    missing_in_action = defaultdict(list)

    print "-" * 10, "Checking on workflows in staging", "-" * 10
    #forget_about = ['/MinBias_TuneCUETP8M1_13TeV-pythia8/RunIISummer15GS-MCRUN2_71_V1-v2/GEN-SIM']
    #for what in forget_about:
    #    if not done_by_input[what]:
    #        done_by_input[what] = {'fake':True}

    ## come back to workflows and check if they can go
    available_cache = defaultdict(lambda: defaultdict(float))
    presence_cache = defaultdict(dict)

    time_point("Preparing for more")
    for wfo, wfi in wfois:
        print "#" * 30
        time_point("Forward checking %s" % wfo.name, sub_lap=True)
        ## the site white list takes site, campaign, memory and core information
        (_, primaries, _, secondaries,
         sites_allowed) = wfi.getSiteWhiteList(verbose=False)
        se_allowed = [SI.CE_to_SE(site) for site in sites_allowed]
        se_allowed.sort()
        se_allowed_key = ','.join(se_allowed)
        readys = {}
        for need in list(primaries) + list(secondaries):
            if not need in done_by_input:
                wfi.sendLog('stagor', "missing transfer report for %s" % need)
                readys[need] = False
                ## should warn someone about this !!!
                ## it cannot happen, by construction
                sendEmail('missing transfer report',
                          '%s does not have a transfer report' % (need))
                continue

            if not done_by_input[need] and need in list(secondaries):
                wfi.sendLog(
                    'stagor',
                    "assuming it is OK for secondary %s to have no attached transfers"
                    % need)
                readys[need] = True
                done_by_input[need] = {"fake": True}
                continue

            if len(done_by_input[need]) and all(done_by_input[need].values()):
                wfi.sendLog('stagor', "%s is ready" % need)
                print json.dumps(done_by_input[need], indent=2)
                readys[need] = True
            else:
                wfi.sendLog(
                    'stagor', "%s is not ready \n%s" %
                    (need, json.dumps(done_by_input[need], indent=2)))
                readys[need] = False

        if readys and all(readys.values()):
            if wfo.status == 'staging':
                wfi.sendLog('stagor',
                            "all needs are fullfilled, setting staged")
                wfo.status = 'staged'
                session.commit()
            else:
                wfi.sendLog('stagor', "all needs are fullfilled, already")
                print json.dumps(readys, indent=2)
        else:
            wfi.sendLog('stagor', "missing requirements")
            copies_needed, _ = wfi.getNCopies()
            jump_ahead = False
            re_transfer = False
            ## there is missing input let's do something more elaborated
            for need in list(primaries):  #+list(secondaries):
                if endpoint_in_downtime[need] and endpoint_in_downtime[
                        need] == endpoint_incompleted[need]:
                    #print need,"is going to an end point in downtime"
                    wfi.sendLog(
                        'stagor',
                        "%s has only incomplete endpoint in downtime\n%s" %
                        (need, endpoint_in_downtime[need]))
                    re_transfer = True

                if not se_allowed_key in available_cache[need]:
                    available_cache[need][
                        se_allowed_key] = getDatasetBlocksFraction(
                            url, need, sites=se_allowed)
                    if available_cache[need][se_allowed_key] >= copies_needed:
                        wfi.sendLog(
                            'stagor',
                            "assuming it is OK to move on like this already for %s"
                            % need)
                        jump_ahead = True
                    else:
                        wfi.sendLog(
                            'stagor', "Available %s times" %
                            available_cache[need][se_allowed_key])
                        missing_and_downtime = list(
                            set(endpoint_in_downtime[need])
                            & set(endpoint_incompleted[need]))
                        if missing_and_downtime:
                            wfi.sendLog(
                                'stagor',
                                "%s is incomplete at %s which is in downtime, trying to move along"
                                % (need, ','.join(missing_and_downtime)))
                            jump_ahead = True
                        else:
                            wfi.sendLog(
                                'stagor',
                                "continue waiting for transfers for optimum production performance."
                            )

            ## compute a time since staging to filter jump starting ?
            # check whether the inputs is already in the stuck list ...
            for need in list(primaries) + list(secondaries):
                if need in already_stuck:
                    wfi.sendLog('stagor',
                                "%s is stuck, so try to jump ahead" % need)
                    jump_ahead = True

            if jump_ahead or re_transfer:
                details_text = "checking on availability for %s to jump ahead" % wfo.name
                details_text += '\n%s wants %s copies' % (wfo.name,
                                                          copies_needed)
                copies_needed = max(1, copies_needed - 1)
                details_text += '\nlowering by one unit to %s' % copies_needed
                wfi.sendLog('stagor', details_text)
                all_check = True

                prim_where = set()
                for need in list(primaries):
                    if not se_allowed_key in presence_cache[need]:
                        presence_cache[need][
                            se_allowed_key] = getDatasetPresence(
                                url, need, within_sites=se_allowed)
                    presence = presence_cache[need][se_allowed_key]
                    prim_where.update(presence.keys())
                    available = available_cache[need][se_allowed_key]
                    this_check = (available >= copies_needed)
                    wfi.sendLog(
                        'stagor', "%s is available %s times (%s), at %s" %
                        (need, available, this_check, se_allowed_key))
                    all_check &= this_check
                    if not all_check: break

                for need in list(secondaries):
                    ## I do not want to check on the secon
                    ## this below does not function because the primary could be all available, and the secondary not complete at a certain site that does not matter at that point
                    this_check = all(done_by_input[need].values())
                    wfi.sendLog(
                        'stagor', "%s is this much transfered %s" %
                        (need, json.dumps(done_by_input[need], indent=2)))
                    all_check &= this_check
                    #if not se_allowed_key in presence_cache[need]:
                    #    presence_cache[need][se_allowed_key] = getDatasetPresence( url, need , within_sites=se_allowed)

                    ## restrict to where the primary is
                    #presence = dict([(k,v) for (k,v) in presence_cache[need][se_allowed_key].items() if k in prim_where])
                    #this_check = all([there for (there,frac) in presence.values()])
                    #print need,"is present at all sites:",this_check
                    #all_check&= this_check

                if all_check and not re_transfer:
                    wfi.sendLog(
                        'stagor',
                        "needs are sufficiently fullfilled, setting staged")
                    wfo.status = 'staged'
                    session.commit()
                else:
                    print wfo.name, "has to wait a bit more"
                    wfi.sendLog('stagor', "needs to wait a bit more")
            else:
                wfi.sendLog('stagor', "not checking availability")

            if re_transfer:
                wfi.sendLog(
                    'stagor',
                    "Sending back to considered because of endpoint in downtime"
                )
                if wfo.status == 'staging':
                    wfo.status = 'considered'
                    session.commit()
                    send_back_to_considered.add(wfo.name)

    time_point("Checked affected workflows")

    if send_back_to_considered:
        #sendEmail("transfer to endpoint in downtime","sending back to considered the following workflows \n%s"%('\n'.join( send_back_to_considered)))
        sendLog('stagor',
                "sending back to considered the following workflows \n%s" %
                ('\n'.join(send_back_to_considered)),
                level='critical')

    print "-" * 10, "Checking on non-available datasets", "-" * 10
    ## now check on those that are not fully available

    for dsname in available_cache.keys():
        ## squash the se_allowed_key key
        available_cache[dsname] = min(available_cache[dsname].values())

    really_stuck_dataset = set()

    for dsname, available in available_cache.items():
        using_its = getWorkflowByInput(url, dsname)
        #print using_its
        using_wfos = []
        for using_it in using_its:
            wf = session.query(Workflow).filter(
                Workflow.name == using_it).first()
            if wf:
                using_wfos.append(wf)

        if not len(done_by_input[dsname]):
            print "For dataset", dsname, "there are no transfer report. That's an issue."
            for wf in using_wfos:
                if wf.status == 'staging':
                    if UC.get("stagor_sends_back"):
                        print "sending", wf.name, "back to considered"
                        wf.status = 'considered'
                        session.commit()
                        #sendEmail( "send back to considered","%s was send back and might be trouble"% wf.name)
                        sendLog('stagor',
                                "%s was send back and might be trouble" %
                                wf.name,
                                level='critical')
                    else:
                        print "would send", wf.name, "back to considered"
                        #sendEmail( "subscription lagging behind","susbscriptions to get %s running are not appearing in phedex. I would have send it back to considered but that's not good."% wf.name)
                        sendLog(
                            'stagor',
                            "susbscriptions to get %s running are not appearing in phedex. I would have send it back to considered but that's not good."
                            % wf.name,
                            level='critical')
            continue

        ## not compatible with checking on secondary availability
        #if all([wf.status != 'staging' for wf in using_wfos]):
        #    ## means despite all checks that input is not needed
        #    continue

        if available < 1.:
            print "incomplete", dsname
            ## there is a problem in the method below that it does not account for files stuck in T1*Buffer only
            lost_blocks, lost_files = findLostBlocksFiles(
                url, dsname) if (not dsname.endswith('/RAW')) else ([], [])
            lost_block_names = [item['name'] for item in lost_blocks]
            lost_file_names = [item['name'] for item in lost_files]

            if lost_blocks:
                #print json.dumps( lost , indent=2 )
                ## estimate for how much !
                fraction_loss, _, n_missing = getDatasetBlockFraction(
                    dsname, lost_block_names)
                print "We have lost", len(
                    lost_block_names
                ), "blocks", lost_block_names, "for %f%%" % (100. *
                                                             fraction_loss)
                if fraction_loss > 0.05:  ## 95% completion mark
                    #sendEmail('we have lost too many blocks','%s is missing %d blocks, for %d events, %f %% loss'%(dsname, len(lost_block_names), n_missing, fraction_loss))
                    sendLog(
                        'stagor',
                        '%s is missing %d blocks, for %d events, %3.2f %% loss'
                        % (dsname, len(lost_block_names), n_missing,
                           100 * fraction_loss),
                        level='critical')
                    ## the workflow should be rejected !
                    for wf in using_wfos:
                        if wf.status == 'staging':
                            print wf.name, "is doomed. setting to trouble"
                            wf.status = 'trouble'
                            session.commit()
                            sendLog(
                                'stagor',
                                '%s has too much loss on the input dataset %s. Missing  %d blocks, for %d events, %3.2f %% loss'
                                % (wf.name, dsname, len(lost_block_names),
                                   n_missing, 100 * fraction_loss),
                                level='critical')
                else:
                    ## probably enough to make a ggus and remove
                    if not dsname in known_lost_blocks:
                        #sendEmail('we have lost a few blocks', '%s is missing %d blocks, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_block_names), n_missing, fraction_loss, '\n'.join( lost_block_names ) ))
                        sendLog(
                            'stagor',
                            '%s is missing %d blocks, for %d events, %f %% loss\n\n%s'
                            % (dsname, len(lost_block_names), n_missing,
                               fraction_loss, '\n'.join(lost_block_names)),
                            level='critical')
                        known_lost_blocks[dsname] = [
                            i['name'] for i in lost_blocks
                        ]
                really_stuck_dataset.add(dsname)

            if lost_files:
                fraction_loss, _, n_missing = getDatasetFileFraction(
                    dsname, lost_file_names)
                print "We have lost", len(
                    lost_file_names
                ), "files", lost_file_names, "for %f%%" % fraction_loss

                if fraction_loss > 0.05:
                    #sendEmail('we have lost too many files','%s is missing %d files, for %d events, %f %% loss'%(dsname, len(lost_file_names),n_missing, fraction_loss))
                    sendLog(
                        'stagor',
                        '%s is missing %d files, for %d events, %f %% loss' %
                        (dsname, len(lost_file_names), n_missing,
                         fraction_loss),
                        level='critical')
                    for wf in using_wfos:
                        if wf.status == 'staging':
                            print wf.name, "is doomed. setting to trouble"
                            wf.status = 'trouble'
                            session.commit()
                else:
                    ## probably enough to make a ggus and remove
                    if not dsname in known_lost_files:
                        #sendEmail('we have lost a few files','%s is missing %d files, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_file_names),n_missing, fraction_loss, '\n'.join(lost_file_names)))
                        sendLog(
                            'stagor',
                            '%s is missing %d files, for %d events, %f %% loss\n\n%s'
                            % (dsname, len(lost_file_names), n_missing,
                               fraction_loss, '\n'.join(lost_file_names)),
                            level='critical')
                        known_lost_files[dsname] = [
                            i['name'] for i in lost_files
                        ]

                ## should the status be change to held-staging and pending on a ticket

            missings = [
                pid for (pid, d) in done_by_input[dsname].items() if d == False
            ]
            print "\t", done_by_input[dsname]
            print "\tneeds", len(done_by_input[dsname])
            print "\tgot", done_by_input[dsname].values().count(True)
            print "\tmissing", missings
            missing_in_action[dsname].extend(missings)

    rr = eosFile('%s/lost_blocks_datasets.json' % monitor_dir, 'w')
    rr.write(json.dumps(known_lost_blocks, indent=2))
    rr.close()

    rr = eosFile('%s/lost_files_datasets.json' % monitor_dir, 'w')
    rr.write(json.dumps(known_lost_files, indent=2))
    rr.close()

    eosFile('%s/incomplete_transfers.json' % monitor_dir,
            'w').write(json.dumps(missing_in_action, indent=2)).close()
    print "Stuck transfers and datasets"
    print json.dumps(missing_in_action, indent=2)

    TD = transferDataset()
    datasets_by_phid = defaultdict(set)
    for dataset in missing_in_action:
        for phid in missing_in_action[dataset]:
            #print dataset,"stuck through",phid
            datasets_by_phid[phid].add(dataset)

    for k in datasets_by_phid:
        #datasets_by_phid[k] = list(datasets_by_phid[k])
        TD.add(k, list(datasets_by_phid[k]))

    #eosFile('%s/datasets_by_phid.json'%base_eos_dir,'w').write( json.dumps(datasets_by_phid, indent=2 )).close()

    eosFile('%s/really_stuck_dataset.json' % base_eos_dir,
            'w').write(json.dumps(list(really_stuck_dataset),
                                  indent=2)).close()
    print '\n' * 2, "Datasets really stuck"
    print '\n'.join(really_stuck_dataset)

    #############
    ## not going further for what matters
    #############
    return
Ejemplo n.º 39
0
    outs= wl['OutputDatasets']
    for out in outs:
        blocks_at_sites = getDatasetBlockAndSite(url, out, group="")
        deletions = getDatasetOnGoingDeletion(url, out)
        if len(deletions):
            print "\t\tshould not subscribe with on-going deletions",out
            continue
        for site,blocks in blocks_at_sites.items():
            if 'Buffer' in site or 'Export' in site or 'MSS' in site: continue
            all_blocks_at_sites[site].update( blocks )
        print "\t",out
        print "\t\t",len(blocks_at_sites),"sites",sorted(blocks_at_sites.keys()),"with unsubscribed blocks"

if len(all_blocks_at_sites.keys())==0 and len(wfs):
    ## no subscription to be done at this time, let me know
    sendEmail('no unsubscribed blocks','while catching up %s does not need to be there anymore'%( one_status ))

print len(all_blocks_at_sites.keys()),"sites to subscribe things at"
for site,blocks in all_blocks_at_sites.items():
    if 'Buffer' in site or 'Export' in site or 'MSS' in site: continue

    if not site in done: done[site] = []
    blocks = [block for block in blocks if not block in done[site]]
    print "Would subscribe",len(blocks),"blocks to",site
    print "\tSubscribe",len(blocks),"blocks to",site    
    done[site].extend( blocks )
    if blocks:
        print makeReplicaRequest(url, site, list(blocks), "Production blocks", priority="low", approve=True,mail=False)
        time.sleep(1)

open('myblock_done.json','w').write( json.dumps( done, indent=2 ))
Ejemplo n.º 40
0
def transferor(url, specific=None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return

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

    if options and options.test:
        execute = False
    else:
        execute = True

    SI = siteInfo()
    CI = campaignInfo()
    NLI = newLockInfo()
    mcm = McMClient(dev=False)
    dss = DSS()

    #allowed_secondary = UC.get('')
    print "counting all being handled..."
    being_handled = len(
        session.query(Workflow).filter(Workflow.status == 'away').all())
    being_handled += len(
        session.query(Workflow).filter(
            Workflow.status.startswith('stag')).all())
    being_transfered = len(
        session.query(Workflow).filter(Workflow.status == 'staging').all())
    being_handled += len(
        session.query(Workflow).filter(
            Workflow.status.startswith('assistance-')).all())

    max_to_handle = options.maxworkflows
    max_to_transfer = options.maxstaging

    allowed_to_handle = max(0, max_to_handle - being_handled)
    allowed_to_transfer = max(0, max_to_transfer - being_transfered)
    wf_buffer = 5
    if allowed_to_handle <= wf_buffer:  ## buffer for having several wf per transfer
        print "Not allowed to run more than", max_to_handle, "at a time. Currently", being_handled, "and", wf_buffer, "buffer"
    else:
        print being_handled, "already being handled", max_to_handle, "max allowed,", allowed_to_handle, "remaining", "and", wf_buffer, "buffer"

    if allowed_to_transfer <= wf_buffer:
        print "Not allowed to transfer more than", max_to_transfer, "at a time. Currently", being_transfered, "and", wf_buffer, "buffer"
    else:
        print being_transfered, "already being transfered", max_to_transfer, "max allowed,", allowed_to_transfer, "remaining", "and", wf_buffer, "buffer"

    print "... done"

    all_transfers = defaultdict(list)
    workflow_dependencies = defaultdict(
        set)  ## list of wf.id per input dataset
    wfs_and_wfh = []
    print "getting all wf to consider ..."
    cache = getWorkflows(url, 'assignment-approved', details=True)
    for wfo in session.query(Workflow).filter(
            Workflow.status.startswith('considered')).all():
        print "\t", wfo.name
        if specific and not specific in wfo.name: continue
        cache_r = filter(lambda d: d['RequestName'] == wfo.name, cache)
        if len(cache_r):
            wfs_and_wfh.append((wfo,
                                workflowInfo(url,
                                             wfo.name,
                                             spec=False,
                                             request=cache_r[0])))
        else:
            wfs_and_wfh.append((wfo, workflowInfo(url, wfo.name, spec=False)))
    print "... done"

    transfers_per_sites = defaultdict(int)
    input_sizes = {}
    ignored_input_sizes = {}
    input_cput = {}
    input_st = {}
    ## list the size of those in transfer already
    in_transfer_priority = None
    min_transfer_priority = None
    print "getting all wf in staging ..."
    stucks = json.loads(open('%s/stuck_transfers.json' % monitor_dir).read())

    for wfo in session.query(Workflow).filter(
            Workflow.status == 'staging').all():
        wfh = workflowInfo(url, wfo.name, spec=False)
        #(lheinput,primary,parent,secondary) = wfh.getIO()
        #sites_allowed = getSiteWhiteList( (lheinput,primary,parent,secondary) )
        (lheinput, primary, parent, secondary,
         sites_allowed) = wfh.getSiteWhiteList()
        for site in sites_allowed:  ## we should get the actual transfer destination instead of the full white list
            transfers_per_sites[site] += 1
        #input_cput[wfo.name] = wfh.getComputingTime()
        #input_st[wfo.name] = wfh.getSystemTime()
        for prim in primary:
            ds_s = dss.get(prim)
            if prim in stucks:
                sendLog('transferor',
                        "%s appears stuck, so not counting it %s [GB]" %
                        (prim, ds_s),
                        wfi=wfh)
                ignored_input_sizes[prim] = ds_s
            else:
                input_sizes[prim] = ds_s
                sendLog('transferor',
                        "%s needs %s [GB]" % (wfo.name, ds_s),
                        wfi=wfh)
        if in_transfer_priority == None:
            in_transfer_priority = int(wfh.request['RequestPriority'])
        else:
            in_transfer_priority = max(in_transfer_priority,
                                       int(wfh.request['RequestPriority']))
        if min_transfer_priority == None:
            min_transfer_priority = int(wfh.request['RequestPriority'])
        else:
            min_transfer_priority = min(min_transfer_priority,
                                        int(wfh.request['RequestPriority']))

    if min_transfer_priority == None or in_transfer_priority == None:
        print "nothing is lining up for transfer"
        sendEmail("no request in staging", "no request in staging")
        return
        pass

    try:
        print "Ignored input sizes"
        ignored_values = list(ignored_input_sizes.items())
        ignored_values.sort(key=lambda i: i[1])
        print "\n".join(map(str, ignored_values))
        print "Considered input sizes"
        considered_values = list(input_sizes.items())
        considered_values.sort(key=lambda i: i[1])
        print "\n".join(map(str, considered_values))
    except Exception as e:
        print "trying to print the summary of input size"
        print str(e)

    print "... done"
    print "Max priority in transfer already", in_transfer_priority
    print "Min priority in transfer already", min_transfer_priority
    print "transfers per sites"
    print json.dumps(transfers_per_sites, indent=2)
    in_transfer_already = sum(input_sizes.values())
    cput_in_transfer_already = sum(input_cput.values())
    st_in_transfer_already = sum(input_st.values())

    ## list the size of all inputs
    primary_input_per_workflow_gb = defaultdict(float)
    print "getting all input sizes ..."
    for (wfo, wfh) in wfs_and_wfh:
        (_, primary, _, _) = wfh.getIO()
        #input_cput[wfo.name] = wfh.getComputingTime()
        #input_st[wfo.name] = wfh.getSystemTime()
        for prim in primary:
            ## do not count it if it appears stalled !
            prim_size = dss.get(prim)
            input_sizes[prim] = prim_size
            primary_input_per_workflow_gb[wfo.name] += prim_size
    print "... done"

    # shuffle first by name
    random.shuffle(wfs_and_wfh)

    # Sort smallest transfers first; allows us to transfer as many as possible workflows.
    def prio_and_size(i, j):
        if int(i[1].request['RequestPriority']) == int(
                j[1].request['RequestPriority']):
            return cmp(int(primary_input_per_workflow_gb.get(j[0].name, 0)),
                       int(primary_input_per_workflow_gb.get(i[0].name, 0)))
        else:
            return cmp(int(i[1].request['RequestPriority']),
                       int(j[1].request['RequestPriority']))

    #wfs_and_wfh.sort(cmp = prio_and_size, reverse=True)
    #wfs_and_wfh.sort(cmp = lambda i,j : cmp(int(primary_input_per_workflow_gb.get(i[0].name, 0)), int(primary_input_per_workflow_gb.get(j[0].name, 0)) ))
    #sort by priority higher first
    wfs_and_wfh.sort(cmp=lambda i, j: cmp(int(i[1].request[
        'RequestPriority']), int(j[1].request['RequestPriority'])),
                     reverse=True)

    cput_grand_total = sum(input_cput.values())
    cput_to_transfer = cput_grand_total - cput_in_transfer_already
    st_grand_total = sum(input_st.values())
    st_to_transfer = st_grand_total - st_in_transfer_already
    print "%15.4f [CPU h] worth already in transfer" % cput_in_transfer_already
    print "%15.4f [CPU h] worth is the current requested transfer load" % cput_to_transfer
    print "%15.4f [h] worth of absolute system time in transfer" % (
        cput_in_transfer_already / SI.availableSlots())
    print "%15.4f [h] worth of absolute system time is the current requested transfer load" % (
        cput_to_transfer / SI.availableSlots())
    print "%15.4f [h] worth of theoritical system time in transfer" % (
        st_in_transfer_already)
    print "%15.4f [h] worth of theoritical system time is the current requested transfer load" % (
        st_to_transfer)

    grand_total = sum(input_sizes.values())
    to_transfer = grand_total - in_transfer_already
    grand_transfer_limit = options.maxtransfer
    #grand_transfer_limit = SI.total_disk()*0.25*1024## half of the free sapce in TB->GB

    transfer_limit = grand_transfer_limit - in_transfer_already
    print "%15.4f GB already being transfered" % in_transfer_already
    print "%15.4f GB is the current requested transfer load" % to_transfer
    print "%15.4f GB is the global transfer limit" % grand_transfer_limit
    print "%15.4f GB is the available limit" % transfer_limit

    max_staging_per_site = options.maxstagingpersite

    # the max priority value per dataset.
    max_priority = defaultdict(int)
    needs_transfer = 0  ## so that we can count'em
    passing_along = 0
    transfer_sizes = {}
    went_over_budget = False
    destination_cache = {}
    no_goes = set()

    max_per_round = UC.get('max_per_round').get('transferor', None)
    if max_per_round and not spec:
        wfs_and_wfh = wfs_and_wfh[:max_per_round]

    for (wfo, wfh) in wfs_and_wfh:
        print wfo.name, "to be transfered with priority", wfh.request[
            'RequestPriority']

        if wfh.request['RequestStatus'] != 'assignment-approved':
            if wfh.request['RequestStatus'] in [
                    'aborted', 'rejected', 'rejected-archived',
                    'aborted-archived'
            ]:
                wfo.status = 'trouble'  ## so that we look or a replacement
            else:
                wfo.status = 'away'
            wfh.sendLog(
                'transferor', '%s in status %s, setting %s' %
                (wfo.name, wfh.request['RequestStatus'], wfo.status))
            continue

        (_, primary, _, _) = wfh.getIO()
        this_load = sum([input_sizes[prim] for prim in primary])
        no_budget = False
        if (this_load
                and (sum(transfer_sizes.values()) + this_load > transfer_limit
                     or went_over_budget)):
            if went_over_budget:
                wfh.sendLog('transferor', "Transfer has gone over bubget.")
            else:
                wfh.sendLog('transferor', "Transfer will go over bubget.")
            wfh.sendLog(
                'transferor',
                "%15.4f GB this load, %15.4f GB already this round, %15.4f GB is the available limit"
                % (this_load, sum(transfer_sizes.values()), transfer_limit))
            #if sum(transfer_sizes.values()) > transfer_limit:
            went_over_budget = True
            if in_transfer_priority != None and min_transfer_priority != None:
                if int(
                        wfh.request['RequestPriority']
                ) >= in_transfer_priority and min_transfer_priority != in_transfer_priority:
                    wfh.sendLog(
                        'transferor',
                        "Higher priority sample %s >= %s go-on over budget" %
                        (wfh.request['RequestPriority'], in_transfer_priority))
                else:
                    if not options.go:
                        wfh.sendLog(
                            'transferor',
                            "%s minimum priority %s < %s : stop" %
                            (min_transfer_priority,
                             wfh.request['RequestPriority'],
                             in_transfer_priority))
                        no_budget = True

        ## throtlle by campaign go
        no_go = False
        if not wfh.go(log=True) and not options.go:
            no_go = True
            no_goes.add(wfo.name)

        allowed_secondary = set()
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[
                    campaign]:
                allowed_secondary.update(CI.campaigns[campaign]['secondaries'])
        if secondary:
            if (secondary and allowed_secondary) and (
                    set(secondary) & allowed_secondary != set(secondary)):
                wfh.sendLog(
                    'assignor', '%s is not an allowed secondary' %
                    (', '.join(set(secondary) - allowed_secondary)))
                no_go = True

        if no_go:
            continue
        ## check if the batch is announced

        def check_mcm(wfn):
            announced = False
            is_real = False
            if not wfn.startswith('pdmvserv'):
                is_real = True
            try:
                for b in mcm.getA('batches', query='contains=%s' % wfo.name):
                    is_real = True
                    if b['status'] == 'announced':
                        announced = True
                        break
            except:
                try:
                    for b in mcm.getA('batches',
                                      query='contains=%s' % wfo.name):
                        is_real = True
                        if b['status'] == 'announced':
                            announced = True
                            break
                except:
                    print "could not get mcm batch announcement, assuming not real"
            return announced, is_real

        if not use_mcm:
            announced, is_real = False, True
        else:
            if wfh.request['RequestType'] in ['ReReco']:
                announced, is_real = True, True
            else:
                announced, is_real = check_mcm(wfo.name)

        if not announced:
            wfh.sendLog('transferor', "does not look announced.")

        if not is_real:
            wfh.sendLog('transferor', "does not appear to be genuine.")

            ## prevent any duplication. if the wf is not mentioned in any batch, regardless of status
            continue

        ## check on a grace period
        injection_time = time.mktime(
            time.strptime('.'.join(map(str, wfh.request['RequestDate'])),
                          "%Y.%m.%d.%H.%M.%S")) / (60. * 60.)
        now = time.mktime(time.gmtime()) / (60. * 60.)
        if float(now - injection_time) < 4.:
            if not options.go and not announced:
                wfh.sendLog(
                    'transferor',
                    "It is too soon to start transfer: %3.2fH remaining" %
                    (now - injection_time))
                continue

        if passing_along >= allowed_to_handle:
            #if int(wfh.request['RequestPriority']) >= in_transfer_priority and min_transfer_priority!=in_transfer_priority:
            if in_transfer_priority != None and min_transfer_priority != None:
                if int(wfh.request['RequestPriority']
                       ) >= in_transfer_priority and int(
                           wfh.request['RequestPriority']
                       ) != min_transfer_priority:
                    ## higher priority, and not only this priority being transfered
                    wfh.sendLog(
                        'transferor',
                        "Higher priority sample %s >= %s go-on over %s" %
                        (wfh.request['RequestPriority'], in_transfer_priority,
                         max_to_handle))
                else:
                    wfh.sendLog(
                        'transferor',
                        " Not allowed to pass more than %s at a time. Currently %s handled, and adding %s"
                        % (max_to_handle, being_handled, passing_along))
                    if not options.go:
                        ## should not allow to jump that fence
                        break

        if this_load and needs_transfer >= allowed_to_transfer:
            if in_transfer_priority != None and min_transfer_priority != None:
                if int(wfh.request['RequestPriority']
                       ) >= in_transfer_priority and int(
                           wfh.request['RequestPriority']
                       ) != min_transfer_priority:
                    ## higher priority, and not only this priority being transfered
                    wfh.sendLog(
                        'transferor',
                        "Higher priority sample %s >= %s go-on over %s" %
                        (wfh.request['RequestPriority'], in_transfer_priority,
                         max_to_transfer))
                else:
                    wfh.sendLog(
                        'transferor',
                        "Not allowed to transfer more than %s at a time. Currently %s transfering, and adding %s"
                        % (max_to_transfer, being_transfered, needs_transfer))
                    if not options.go:
                        no_budget = True

        if no_budget:
            continue

        ## the site white list considers site, campaign, memory and core information
        (lheinput, primary, parent, secondary,
         sites_allowed) = wfh.getSiteWhiteList()
        if options and options.tosites:
            sites_allowed = options.tosites.split(',')

        for dataset in list(primary) + list(parent) + list(secondary):
            ## lock everything flat
            NLI.lock(dataset)

        if not sites_allowed:
            wfh.sendLog('transferor', "not possible site to run at")
            #sendEmail("no possible sites","%s has no possible sites to run at"%( wfo.name ))
            sendLog('transferor',
                    "%s has no possible sites to run at" % (wfo.name),
                    level='critical')
            continue

        blocks = []
        if 'BlockWhitelist' in wfh.request and wfh.request['BlockWhitelist']:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(
                    set(blocks + getDatasetBlocks(
                        dataset, runs=wfh.request['RunWhitelist'])))
        if 'LumiList' in wfh.request and wfh.request['LumiList']:
            ## augment with the lumi white list
            blocks = list(
                set(blocks +
                    getDatasetBlocks(dataset, lumis=wfh.request['LumiList'])))

        if blocks:
            print "Reading", len(blocks), "in block whitelist"

        can_go = True
        staging = False
        allowed = True
        primary_destinations = set()
        if primary:

            copies_needed_from_CPUh, CPUh = wfh.getNCopies()

            if talk:
                print wfo.name, 'reads', ', '.join(primary), 'in primary'
            ## chope the primary dataset
            for prim in primary:
                ## keep track of what needs what
                workflow_dependencies[prim].add(wfo.id)

                max_priority[prim] = max(max_priority[prim],
                                         int(wfh.request['RequestPriority']))

                wfh.sendLog(
                    'transferor', "Would make %s  from cpu requirement %s" %
                    (copies_needed_from_CPUh, CPUh))
                copies_needed = copies_needed_from_CPUh

                if 'Campaign' in wfh.request and wfh.request[
                        'Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[
                            wfh.request['Campaign']]:
                    copies_needed_from_campaign = CI.campaigns[
                        wfh.request['Campaign']]['maxcopies']
                    copies_needed = min(copies_needed_from_campaign,
                                        copies_needed)

                    wfh.sendLog(
                        'transferor',
                        "Maxed to %s by campaign configuration %s" %
                        (copies_needed, wfh.request['Campaign']))

                ### new ways of making the whole thing
                destinations, all_block_names = getDatasetDestinations(
                    url,
                    prim,
                    within_sites=[SI.CE_to_SE(site) for site in sites_allowed],
                    only_blocks=blocks)
                print json.dumps(destinations, indent=2)

                ## get where the dataset is in full and completed
                prim_location = [
                    site for (site, info) in destinations.items()
                    if info['completion'] == 100 and info['data_fraction'] == 1
                ]
                ## the rest is places it is going to be
                prim_destination = [
                    site for site in destinations.keys()
                    if not site in prim_location
                ]

                if len(prim_location) >= copies_needed:
                    wfh.sendLog(
                        'transferor',
                        "The input is all fully in place at %s sites %s" %
                        (len(prim_location), sorted(prim_location)))
                    continue
                copies_needed = max(0, copies_needed - len(prim_location))
                wfh.sendLog(
                    'transferor',
                    "not counting existing copies ; now need %s" %
                    copies_needed)
                copies_being_made = [
                    sum([
                        info['blocks'].keys().count(block)
                        for site, info in destinations.items()
                        if site in prim_destination
                    ]) for block in all_block_names
                ]

                latching_on_transfers = set()
                [
                    latching_on_transfers.update(info['blocks'].values())
                    for site, info in destinations.items()
                    if site in prim_destination
                ]
                latching_on_transfers = list(latching_on_transfers)
                #print latching_on_transfers

                ## figure out where all this is going to go
                prim_to_distribute = [
                    site for site in sites_allowed
                    if not SI.CE_to_SE(site) in prim_location
                ]
                prim_to_distribute = [
                    site for site in prim_to_distribute
                    if not SI.CE_to_SE(site) in prim_destination
                ]
                ## take out the ones that cannot receive transfers
                prim_to_distribute = [
                    site for site in prim_to_distribute if not any([
                        osite.startswith(site)
                        for osite in SI.sites_veto_transfer
                    ])
                ]

                wfh.sendLog(
                    'transferor',
                    "Could be going to: %s" % sorted(prim_to_distribute))
                if not prim_to_distribute or any([
                        transfers_per_sites[site] < max_staging_per_site
                        for site in prim_to_distribute
                ]):
                    ## means there is openings let me go
                    print "There are transfer slots available:", [
                        (site, transfers_per_sites[site])
                        for site in prim_to_distribute
                    ]
                    #for site in sites_allowed:
                    #    #increment accross the board, regardless of real destination: could be changed
                    #    transfers_per_sites[site] += 1
                else:
                    if int(
                            wfh.request['RequestPriority']
                    ) >= in_transfer_priority and min_transfer_priority != in_transfer_priority:
                        wfh.sendLog(
                            'transferor',
                            "Higher priority sample %s >= %s go-on over transfer slots available"
                            % (wfh.request['RequestPriority'],
                               in_transfer_priority))
                    else:
                        wfh.sendLog(
                            'transferor',
                            "Not allowed to transfer more than %s per site at a time. Going overboard for %s"
                            % (max_staging_per_site,
                               sorted([
                                   site for site in prim_to_distribute
                                   if transfers_per_sites[site] >=
                                   max_staging_per_site
                               ])))
                        if not options.go:
                            allowed = False
                            break

                for latching in latching_on_transfers:
                    tfo = session.query(Transfer).filter(
                        Transfer.phedexid == int(latching)).first()
                    if not tfo:
                        tfo = session.query(Transfer).filter(
                            Transfer.phedexid == -int(latching)).first()

                    if not tfo:
                        tfo = Transfer(phedexid=latching)
                        tfo.workflows_id = []
                        session.add(tfo)
                    else:
                        tfo.phedexid = latching  ## make it positive ever

                    if not wfo.id in tfo.workflows_id:
                        print "adding", wfo.id, "to", tfo.id, "with phedexid", latching
                        l = copy.deepcopy(tfo.workflows_id)
                        l.append(wfo.id)
                        tfo.workflows_id = l
                    if not options.test:
                        session.commit()
                    else:
                        session.flush(
                        )  ## regardless of commit later on, we need to let the next wf feeding on this transfer to see it in query
                    can_go = False
                    transfer_sizes[prim] = input_sizes[prim]
                    staging = True

                # reduce the number of copies required by the on-going full transfer : how do we bootstrap on waiting for them ??
                #copies_needed = max(0,copies_needed - len(prim_destination))
                copies_needed = max(0, copies_needed - min(copies_being_made))
                wfh.sendLog(
                    'transferor',
                    "Not counting the copies being made ; then need %s" %
                    copies_needed)
                if copies_needed == 0:
                    wfh.sendLog(
                        'transferor',
                        "The output is either fully in place or getting in full somewhere with %s"
                        % latching_on_transfers)
                    can_go = True
                    continue
                elif len(prim_to_distribute) == 0:
                    wfh.sendLog(
                        'transferor',
                        "We are going to need extra copies, but no destinations seems available"
                    )
                    prim_to_distribute = [
                        site for site in sites_allowed
                        if not SI.CE_to_SE(site) in prim_location
                    ]
                    prim_to_distribute = [
                        site for site in prim_to_distribute if not any([
                            osite.startswith(site)
                            for osite in SI.sites_veto_transfer
                        ])
                    ]

                if len(
                        prim_to_distribute
                ) > 0:  ## maybe that a parameter we can play with to limit the
                    if not options or options.chop:
                        ### hard include the tape disk andpoint ?
                        #tapes = [site for site in  getDatasetPresence( url, prim, vetos=['T0','T2','T3','Disk']) if site.endswith('MSS')]
                        chops, sizes = getDatasetChops(
                            prim,
                            chop_threshold=options.chopsize,
                            only_blocks=blocks)
                        spreading = distributeToSites(chops,
                                                      prim_to_distribute,
                                                      n_copies=copies_needed,
                                                      weights=SI.cpu_pledges,
                                                      sizes=sizes)
                        transfer_sizes[prim] = sum(sizes)
                        if not spreading:
                            sendLog(
                                'transferor',
                                'cannot send %s to any site, it cannot fit anywhere'
                                % prim,
                                level='critical')
                            wfh.sendLog(
                                'transferor',
                                "cannot send to any site. %s cannot seem to fit anywhere"
                                % (prim))
                            staging = False
                            can_go = False

                    else:
                        spreading = {}
                        for site in prim_to_distribute:
                            if blocks:
                                spreading[site] = blocks
                            else:
                                spreading[site] = [prim]
                        transfer_sizes[prim] = input_sizes[
                            prim]  ## this is approximate if blocks are specified
                    can_go = False
                    wfh.sendLog(
                        'transferor', "selected CE destinations %s" %
                        (sorted(spreading.keys())))
                    for (site, items) in spreading.items():
                        all_transfers[site].extend(items)
                        transfers_per_sites[site] += 1
                        primary_destinations.add(site)
        if not allowed:
            wfh.sendLog('transferor', "Not allowed to move on with")
            continue

        if secondary:

            override_sec_destination = []
            if 'SecondaryLocation' in CI.campaigns[wfh.request['Campaign']]:
                override_sec_destination = CI.campaigns[
                    wfh.request['Campaign']]['SecondaryLocation']

            print wfo.name, 'reads', ', '.join(secondary), 'in secondary'
            for sec in secondary:

                workflow_dependencies[sec].add(wfo.id)

                if True:
                    ## new style, failing on minbias
                    if not sec in destination_cache:
                        ## this is barbbaric, and does not show the correct picture on workflow by workflow with different whitelist
                        destination_cache[sec], _ = getDatasetDestinations(
                            url, sec)  ## NO SITE WHITE LIST ADDED
                        #destination_cache[sec],_ = getDatasetDestinations(url, sec, within_sites = [SI.CE_to_SE(site) for site in sites_allowed])

                    ## limit to the site whitelist NOW
                    se_allowed = [SI.CE_to_SE(site) for site in sites_allowed]
                    destinations = dict([
                        (k, v) for (k, v) in destination_cache[sec].items()
                        if site in se_allowed
                    ])
                    ## truncate location/destination to those making up for >90% of the dataset
                    bad_destinations = [
                        destinations.pop(site)
                        for (site, info) in destinations.items()
                        if info['data_fraction'] < 0.9
                    ]
                    sec_location = [
                        site for (site, info) in destinations.items()
                        if info['completion'] >= 95
                    ]
                    sec_destination = [
                        site for site in destinations.keys()
                        if not site in sec_location
                    ]
                else:
                    ## old style
                    presence = getDatasetPresence(url, sec)
                    sec_location = [
                        site for site, pres in presence.items()
                        if pres[1] > 90.
                    ]  ## more than 90% of the minbias at sites
                    subscriptions = listSubscriptions(url, sec)
                    sec_destination = [site for site in subscriptions]

                sec_to_distribute = [
                    site for site in sites_allowed if
                    not any([osite.startswith(site) for osite in sec_location])
                ]
                sec_to_distribute = [
                    site for site in sec_to_distribute if not any(
                        [osite.startswith(site) for osite in sec_destination])
                ]
                sec_to_distribute = [
                    site for site in sec_to_distribute if not any([
                        osite.startswith(site)
                        for osite in SI.sites_veto_transfer
                    ])
                ]
                if override_sec_destination:
                    ## intersect with where we want the PU to be
                    not_needed_anymore = list(
                        set(sec_to_distribute) - set(override_sec_destination))
                    #sendEmail("secondary superfluous","the dataset %s could be removed from %s"%( sec, not_needed_anymore ))
                    sendLog(
                        'transferor',
                        "the dataset %s could be removed from %s" %
                        (sec, not_needed_anymore))
                    sec_to_distribute = list(
                        set(sec_to_distribute) & set(override_sec_destination))

                if len(sec_to_distribute) > 0:
                    print "secondary could go to", sorted(sec_to_distribute)
                    sec_size = dss.get(sec)
                    for site in sec_to_distribute:
                        site_se = SI.CE_to_SE(site)
                        if (SI.disk[site_se] * 1024.) > sec_size:
                            all_transfers[site].append(sec)
                            can_go = False
                        else:
                            print "could not send the secondary input to", site_se, "because it is too big for the available disk", SI.disk[
                                site_se] * 1024, "GB need", sec_size
                            if primary_destinations and site in primary_destinations:
                                #sendEmail('secondary input too big','%s is too big (%s) for %s (%s)'%( sec, sec_size, site_se, SI.disk[site_se]*1024))
                                sendLog('transferor',
                                        '%s is too big (%s) for %s (%s)' %
                                        (sec, sec_size, site_se,
                                         SI.disk[site_se] * 1024),
                                        level='critical')
                else:
                    print "the secondary input does not have to be send to site"

        ## is that possible to do something more
        if can_go:
            ## no explicit transfer required this time
            if staging:
                ## but using existing ones
                wfh.sendLog(
                    'transferor',
                    "latches on existing transfers, and nothing else, settin staging"
                )
                wfo.status = 'staging'
                needs_transfer += 1
            else:
                wfh.sendLog(
                    'transferor', "should just be assigned now to %s" %
                    sorted(sites_allowed))
                wfo.status = 'staged'
            passing_along += 1
            wfh.sendLog('transferor', "setting status to %s" % wfo.status)
            session.commit()
            continue
        else:
            ## there is an explicit transfer required
            if staging:
                ## and also using an existing one
                wfh.sendLog('transferor', "latches on existing transfers")
                if not options.test:
                    wfo.status = 'staging'
                    wfh.sendLog('transferor',
                                "setting status to %s" % wfo.status)
                    session.commit()
            wfh.sendLog('transferor', "needs a transfer")
            needs_transfer += 1
            passing_along += 1

    if no_goes:
        #sendEmail("no go for managing","No go for \n"+"\n".join( no_goes ))
        sendLog('transferor',
                "No go for \n" + "\n".join(no_goes),
                level='critical')

    print "accumulated transfers"
    print json.dumps(all_transfers, indent=2)
    fake_id = -1
    wf_id_in_prestaging = set()

    for (site, items_to_transfer) in all_transfers.iteritems():
        items_to_transfer = list(set(items_to_transfer))

        ## convert to storage element
        site_se = SI.CE_to_SE(site)

        ## site that do not want input datasets
        if site in SI.sites_veto_transfer:
            print site, "does not want transfers"
            continue

        ## throttle the transfer size to T2s ? we'd be screwed by a noPU sample properly configured.

        ## massage a bit the items
        blocks = [it for it in items_to_transfer if '#' in it]
        block_datasets = list(set([it.split('#')[0] for it in blocks]))
        datasets = [it for it in items_to_transfer if not '#' in it]

        details_text = "Making a replica to %s (CE) %s (SE) for" % (site,
                                                                    site_se)

        #print "\t",len(blocks),"blocks"
        ## remove blocks if full dataset is send out
        blocks = [
            block for block in blocks if not block.split('#')[0] in datasets
        ]
        #print "\t",len(blocks),"needed blocks for",list(set([block.split('#')[0] for block in blocks]))
        #print "\t",len(datasets),"datasets"
        #print "\t",datasets
        details_text += '\n\t%d blocks' % len(blocks)
        details_text += '\n\t%d needed blocks for %s' % (
            len(blocks),
            sorted(list(set([block.split('#')[0] for block in blocks]))))
        details_text += '\n\t%d datasets' % len(datasets)
        details_text += '\n\t%s' % sorted(datasets)

        items_to_transfer = blocks + datasets

        if execute:
            sendLog('transferor', details_text)
        else:
            print "Would make a replica to", site, "(CE)", site_se, "(SE) for"
            print details_text

        ## operate the transfer
        if options and options.stop:
            ## ask to move-on
            answer = raw_input('Continue with that ?')
            if not answer.lower() in ['y', 'yes', 'go']:
                continue

        if execute:
            priority = 'normal'
            cds = [
                ds for ds in datasets + block_datasets if ds in max_priority
            ]
            if cds and False:  ## I don't think this is working. subscription should be updated on the fly and regularly for raising the priority if needed
                ## decide on an overall priority : that's a bit too large though
                if any([max_priority[ds] >= 90000 for ds in cds]):
                    priority = 'high'
                elif all([max_priority[ds] < 80000 for ds in cds]):
                    priority = 'low'

            result = makeReplicaRequest(url,
                                        site_se,
                                        items_to_transfer,
                                        'prestaging',
                                        priority=priority)
        else:
            result = {'phedex': {'request_created': []}}
            fake_id -= 1

        if not result:
            print "ERROR Could not make a replica request for", site, items_to_transfer, "pre-staging"
            continue
        for phedexid in [o['id'] for o in result['phedex']['request_created']]:
            new_transfer = session.query(Transfer).filter(
                Transfer.phedexid == int(phedexid)).first()
            if not new_transfer:
                new_transfer = session.query(Transfer).filter(
                    Transfer.phedexid == -int(phedexid)).first()
            print phedexid, "transfer created"
            if not new_transfer:
                new_transfer = Transfer(phedexid=phedexid)
                session.add(new_transfer)
            else:
                new_transfer.phedexid = phedexid  ## make it positive again

            new_transfer.workflows_id = set()
            for transfering in list(
                    set(map(lambda it: it.split('#')[0], items_to_transfer))):
                new_transfer.workflows_id.update(
                    workflow_dependencies[transfering])
            new_transfer.workflows_id = list(new_transfer.workflows_id)
            wf_id_in_prestaging.update(new_transfer.workflows_id)
            session.commit()
            ## auto approve it
            if execute:
                approved = approveSubscription(url, phedexid, [site_se])

    for wfid in wf_id_in_prestaging:
        tr_wf = session.query(Workflow).get(wfid)
        if tr_wf and tr_wf.status != 'staging':
            if execute:
                tr_wf.status = 'staging'
                if talk:
                    print "setting", tr_wf.name, "to staging"
        session.commit()
Ejemplo n.º 41
0
                secondary_timeout[dataset] = max(secondary_timeout[dataset],d)

        if secondary_timeout[dataset]: ## different than zero
            delay_days = 30
            delay = delay_days*24*60*60 # 30 days     
            if (now-secondary_timeout[dataset])>delay:
                print "unlocking secondary input after",delay_days,"days"
                unlock = True


        tier = dataset.split('/')[-1]
        creators = getWorkflowByOutput( url, dataset , details=True)
        if not creators and not tier == 'RAW':
            ds_status = getDatasetStatus( dataset )
            if not '-v0/' in dataset and ds_status!=None:
                sendEmail('failing get by output','%s has not been produced by anything?'%dataset)
                newly_locking.add(dataset)
                continue
            else:
                # does not matter, cannot be an OK dataset
                unlock = True
                bad_ds = True
        creators_status = [r['RequestStatus'] for r in creators]
        print "Statuses of workflow that made the dataset",dataset,"are",creators_status
        if all([status in ['failed','aborted','rejected','aborted-archived','rejected-archived'] for status in creators_status]):
            ## crap 
            print "\tunlocking",dataset,"for bad workflow statuses"
            unlock = True
            bad_ds = True

        ds_status=None
Ejemplo n.º 42
0
def recoveror(url, specific, options=None):
    if userLock('recoveror'): return

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

    CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()
    use_recoveror = UC.get('use_recoveror')

    if not use_recoveror and not options.go:
        print "We are told not to run recoveror"
        return

    def make_int_keys(d):
        for code in d:
            d[int(code)] = d.pop(code)

    error_codes_to_recover = UC.get('error_codes_to_recover')
    error_codes_to_block = UC.get('error_codes_to_block')
    error_codes_to_notify = UC.get('error_codes_to_notify')
    make_int_keys(error_codes_to_recover)
    make_int_keys(error_codes_to_block)
    make_int_keys(error_codes_to_notify)

    #wfs = session.query(Workflow).filter(Workflow.status == 'assistance-recovery').all()
    wfs = session.query(Workflow).filter(
        Workflow.status.contains('recovery')).all()
    if specific:
        wfs.extend(
            session.query(Workflow).filter(
                Workflow.status == 'assistance-manual').all())

    for wfo in wfs:
        if specific and not specific in wfo.name: continue

        if not specific and 'manual' in wfo.status: continue

        wfi = workflowInfo(url, wfo.name)

        ## 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

        all_errors = {}
        try:
            ## this is clearly very truncated and should be changed completely
            wfi.getSummary()
            all_errors = wfi.summary['errors']
        except:
            pass

        print '-' * 100
        print "Looking at", wfo.name, "for recovery options"

        recover = True

        if not 'MergedLFNBase' in wfi.request:
            print "f****d up"
            sendEmail('missing lfn', '%s wl cache is screwed up' % wfo.name)
            recover = False

        if not len(all_errors):
            print "\tno error for", wfo.name
            recover = False

        task_to_recover = defaultdict(list)
        message_to_ops = ""
        message_to_user = ""

        if 'LheInputFilese' in wfi.request and wfi.request['LheInputFiles']:
            ## we do not try to recover pLHE
            recover = False

        if wfi.request['RequestType'] in ['MonteCarlo', 'ReReco']:
            recover = False

        if 'Campaign' in wfi.request:
            c = wfi.request['Campaign']
            if c in CI.campaigns and 'recover' in CI.campaigns[c]:
                recover = CI.campaigns[c]['recover']

        for task, errors in all_errors.items():
            print "\tTask", task
            ## collect all error codes and #jobs regardless of step at which it occured
            all_codes = []
            for name, codes in errors.items():
                if type(codes) == int: continue
                all_codes.extend([
                    (int(code), info['jobs'], name,
                     list(set([e['type'] for e in info['errors']])),
                     list(set([e['details'] for e in info['errors']])))
                    for code, info in codes.items()
                ])

            all_codes.sort(key=lambda i: i[1], reverse=True)
            sum_failed = sum([l[1] for l in all_codes])

            for errorCode, njobs, name, types, details in all_codes:
                rate = 100 * njobs / float(sum_failed)
                #print ("\t\t %10d (%6s%%) failures with error code %10d (%"+str(max_legend)+"s) at stage %s")%(njobs, "%4.2f"%rate, errorCode, legend, name)
                print(
                    "\t\t %10d (%6s%%) failures with error code %10d (%30s) at stage %s"
                ) % (njobs, "%4.2f" % rate, errorCode, ','.join(types), name)

                added_in_recover = False

                #if options.go:
                # force the recovery of any task with error ?

                if errorCode in error_codes_to_recover:
                    ## the error code is registered
                    for case in error_codes_to_recover[errorCode]:
                        match = case['details']
                        matched = (match == None)
                        if not matched:
                            matched = False
                            for detail in details:
                                if match in detail:
                                    print "[recover] Could find keyword", match, "in"
                                    print 50 * "#"
                                    print detail
                                    print 50 * "#"
                                    matched = True
                                    break
                        if matched and rate > case['rate']:
                            print "\t\t => we should be able to recover that", case[
                                'legend']
                            task_to_recover[task].append((code, case))
                            added_in_recover = True
                            message_to_user = ""
                        else:
                            print "\t\t recoverable but not frequent enough, needs", case[
                                'rate']

                if errorCode in error_codes_to_block:
                    for case in error_codes_to_block[errorCode]:
                        match = case['details']
                        matched = (match == None)
                        if not matched:
                            matched = False
                            for detail in details:
                                if match in detail:
                                    print "[block] Could find keyword", match, "in"
                                    print 50 * "#"
                                    print detail
                                    print 50 * "#"
                                    matched = True
                                    break
                        if matched and rate > case['rate']:
                            print "\t\t => that error means no ACDC on that workflow", case[
                                'legend']
                            if not options.go:
                                message_to_ops += "%s has an error %s blocking an ACDC.\n%s\n " % (
                                    wfo.name, errorCode, '#' * 50)
                                recover = False
                                added_in_recover = False

                if errorCode in error_codes_to_notify and not added_in_recover:
                    print "\t\t => we should notify people on this"
                    message_to_user += "%s has an error %s in processing.\n%s\n" % (
                        wfo.name, errorCode, '#' * 50)

        if message_to_user:
            print wfo.name, "to be notified to user(DUMMY)", message_to_user

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

        if len(task_to_recover) != len(all_errors):
            print "Should not be doing partial ACDC. skipping"
            #sendEmail('recoveror','do not want to make partial acdc on %s'%wfo.name)
            sendLog('recoveror',
                    'do not want to make partial acdc on %s' % wfo.name,
                    level='warning')
            recover = False

        if task_to_recover and recover:
            print "Initiating recovery"
            print ', '.join(task_to_recover.keys()), "to be recovered"

            recovering = set()
            for task in task_to_recover:
                print "Will be making a recovery workflow for", task

                ## from here you can fetch known solutions, to known error codes
                actions = list(
                    set([
                        case['solution']
                        for code, case in task_to_recover[task]
                    ]))
                acdc = singleRecovery(url,
                                      task,
                                      wfi.request,
                                      actions,
                                      do=options.do)

                if not acdc:
                    if options.do:
                        if recovering:
                            print wfo.name, "has been partially ACDCed. Needs manual attention"
                            #sendEmail( "failed ACDC partial recovery","%s has had %s/%s recoveries %s only"%( wfo.name, len(recovering), len(task_to_recover), list(recovering)), destination=['*****@*****.**'])
                            sendLog('recoveror',
                                    "%s has had %s/%s recoveries %s only" %
                                    (wfo.name, len(recovering),
                                     len(task_to_recover), list(recovering)),
                                    level='critical')
                            continue
                        else:
                            print wfo.name, "failed recovery once"
                            #break
                            continue
                    else:
                        print "no action to take further"
                        sendLog('recoveror',
                                "ACDC for %s can be done automatically" %
                                wfo.name,
                                level='critical')
                        continue

                ## and assign it ?
                team = wfi.request['Team']
                #assign_to_sites = set(SI.sites_ready) ## that needs to be massaged to prevent assigning to something out.
                assign_to_sites = set(SI.all_sites)
                parameters = {
                    #'SiteWhitelist' : wfi.request['SiteWhitelist'],
                    '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 'TrustSitelists' in wfi.request and wfi.request[
                        'TrustSitelists']:
                    parameters['TrustSitelists'] = True
                if '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('recoveror',
                                "%s  was assigned for recovery" % acdc)
                else:
                    print "no assignment done with this ACDC", acdc
                    sendLog('recoveror',
                            "%s needs to be assigned" % (acdc),
                            level='critical')

                result = reqMgrClient.assignWorkflow(url, acdc, team,
                                                     parameters)
                if not result:
                    print acdc, "was not asigned"
                    sendLog('recoveror',
                            "%s needs to be assigned" % (acdc),
                            level='critical')
                else:
                    recovering.add(acdc)

            current = None
            if recovering:
                #if all went well, set the status to -recovering
                current = wfo.status
                if options.ass:
                    current = current.replace('recovery', 'recovering')
                else:
                    current = 'assistance-manual'
                print 'created ACDC: ' + ', '.join(recovering)
            else:
                ## was set to be recovered, and no acdc was made
                current = 'assistance-manual'

            if current:
                print wfo.name, "setting the status to", current
                wfo.status = current
                session.commit()
        else:
            ## this workflow should be handled manually at that point
            print wfo.name, "needs manual intervention"
            wfo.status = 'assistance-manual'
            session.commit()
Ejemplo n.º 43
0
def spawn_harvesting(url, wfi, sites_for_DQMHarvest):
    SI = global_SI()

    all_OK = {}
    requests = []
    outputs = wfi.request['OutputDatasets']
    if ('EnableHarvesting' in wfi.request
            and not wfi.request['EnableHarvesting']) and (
                'DQMConfigCacheID' in wfi.request
                and wfi.request['DQMConfigCacheID']):
        if not 'MergedLFNBase' in wfi.request:
            print "f****d up"
            sendEmail('screwed up wl cache',
                      '%s wl cache is bad' % (wfi.request['RequestName']))
            all_OK['fake'] = False
            return all_OK, requests

        wfi = workflowInfo(url, wfi.request['RequestName'])
        dqms = [out for out in outputs if '/DQM' in out]
        #if not all([in_full[dqm_input] for dqm_input in dqms]):
        #    wfi.sendLog('closor',"will not be able to assign the harvesting: holding up")
        #    for dqm_input in dqms:
        #        all_OK[dqm_input] = False
        ## raise the subscription to high priority

        for dqm_input in dqms:
            ## handle it properly
            harvesting_schema = {
                'Requestor': os.getenv('USER'),
                'RequestType': 'DQMHarvest',
                'Group': 'DATAOPS'
            }
            copy_over = [
                'AcquisitionEra',
                'ProcessingString',
                'DQMUploadUrl',
                'CMSSWVersion',
                'CouchDBName',
                'CouchWorkloadDBName',
                'ConfigCacheUrl',
                'DbsUrl',
                'inputMode',
                'DQMConfigCacheID',
                'OpenRunningTimeout',
                'ScramArch',
                'CMSSWVersion',
                'Campaign',
                'Memory',  #dummy
                'SizePerEvent',  #dummy
                'GlobalTag',  #dummy
            ]
            for item in copy_over:
                if item in wfi.request:
                    harvesting_schema[item] = copy.deepcopy(wfi.request[item])
                else:
                    print item, "is not in initial schema"

            harvesting_schema['InputDataset'] = dqm_input
            harvesting_schema['TimePerEvent'] = 1
            harvesting_schema['PrepID'] = 'Harvest-' + wfi.request['PrepID']
            if len(wfi.request['RequestString']) > 60:
                wfi.request['RequestString'] = wfi.request[
                    'RequestString'][:60]
                print "truncating request string", wfi.request['RequestString']

            harvesting_schema[
                'RequestString'] = 'HARVEST-' + wfi.request['RequestString']
            harvesting_schema['DQMHarvestUnit'] = 'byRun'
            harvesting_schema['RequestPriority'] = min(
                wfi.request['RequestPriority'] * 10, 999999)

            harvest_request = reqMgrClient.submitWorkflow(
                url, harvesting_schema)
            if not harvest_request:
                print "Error in making harvesting for", wfi.request[
                    'RequestName']
                print "schema"
                print json.dumps(harvesting_schema, indent=2)
                harvest_request = reqMgrClient.submitWorkflow(
                    url, harvesting_schema)
                if not harvest_request:
                    print "Error twice in harvesting for", wfi.request[
                        'RequestName']
                    print "schema"
                    print json.dumps(harvesting_schema, indent=2)

            if harvest_request:
                requests.append(harvest_request)
                ## should we protect for setting approved ? no, it's notified below, assignment will fail, likely
                data = reqMgrClient.setWorkflowApproved(url, harvest_request)
                print "created", harvest_request, "for harvesting of", dqm_input
                wfi.sendLog(
                    'closor', "created %s for harvesting of %s" %
                    (harvest_request, dqm_input))
                ## assign it directly
                team = wfi.request['Team']
                parameters = {
                    'SiteWhitelist': [
                        SI.SE_to_CE(se)
                        for se in wfi.request['NonCustodialSites']
                    ],
                    'AcquisitionEra':
                    wfi.acquisitionEra(),
                    'ProcessingString':
                    wfi.processingString(),
                    'MergedLFNBase':
                    wfi.request['MergedLFNBase'],
                    'ProcessingVersion':
                    wfi.request['ProcessingVersion'],
                    'execute':
                    True
                }
                #if in_full[dqm_input]:
                #    print "using full copy at",in_full[dqm_input]
                #    parameters['SiteWhitelist'] = [SI.SE_to_CE(se) for se in in_full[dqm_input]]
                #else:
                #    print "cannot do anything if not having a full copy somewhere"

                #    all_OK[dqm_input]=False
                #    continue
                parameters['SiteWhitelist'] = sites_for_DQMHarvest

                result = reqMgrClient.assignWorkflow(url, harvest_request,
                                                     team, parameters)
                if not result:
                    #sendEmail('harvesting request created','%s was created at announcement of %s in %s, failed to assign'%(harvest_request, dqm_input, wfi.request['RequestName']), destination=[wfi.request['Requestor']+'@cern.ch'])
                    wfi.sendLog(
                        'closor',
                        '%s was created at announcement of %s in %s, failed to assign'
                        % (harvest_request, dqm_input,
                           wfi.request['RequestName']))
                    sendLog(
                        'closor',
                        '%s was created at announcement of %s in %s, failed to assign'
                        % (harvest_request, dqm_input,
                           wfi.request['RequestName']),
                        level='critical')
                else:
                    #sendEmail('harvesting request assigned','%s was created at announcement of %s in %s, and assigned'%(harvest_request, dqm_input, wfi.request['RequestName']), destination=[wfi.request['Requestor']+'@cern.ch'])
                    wfi.sendLog(
                        'closor',
                        '%s was created at announcement of %s in %s, and assigned'
                        % (harvest_request, dqm_input,
                           wfi.request['RequestName']))

            else:
                #print "could not make the harvesting for",wfo.name,"not announcing"
                wfi.sendLog('closor', "could not make the harvesting request")
                sendLog('closor',
                        "could not make the harvesting request for %s" %
                        wfi.request['RequestName'],
                        level='critical')
                all_OK[dqm_input] = False
    return (all_OK, requests)
Ejemplo n.º 44
0
def assignor(url, specific=None, talk=True, options=None):
    if userLock() and not options.manual: return
    mlock = moduleLock()
    if mlock() and not options.manual: return
    if not componentInfo().check() and not options.manual: return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = siteInfo()
    SI = global_SI()
    ###NLI = newLockInfo()
    ###if not NLI.free() and not options.go: return
    LI = lockInfo()
    #if not LI.free() and not options.go and not options.manual: return

    n_assigned = 0
    n_stalled = 0

    wfos = []
    fetch_from = []
    if specific or options.early:
        fetch_from.extend(['considered', 'staging'])
    if specific:
        fetch_from.extend(['considered-tried'])

    if options.early:
        print "Option Early is on"

    fetch_from.extend(['staged'])

    if options.from_status:
        fetch_from = options.from_status.split(',')
        print "Overriding to read from", fetch_from

    for status in fetch_from:
        print "getting wf in", status
        wfos.extend(
            session.query(Workflow).filter(Workflow.status == status).all())
        print len(wfos)

    ## in case of partial, go for fetching a list from json ?
    #if options.partial and not specific:
    #    pass

    aaa_mapping = json.loads(eosRead('%s/equalizor.json' %
                                     monitor_pub_dir))['mapping']
    all_stuck = set()
    all_stuck.update(
        json.loads(eosRead('%s/stuck_transfers.json' % monitor_pub_dir)))

    max_per_round = UC.get('max_per_round').get('assignor', None)
    max_cpuh_block = UC.get('max_cpuh_block')

    # Temporarily switch off prioritization
    random.shuffle(wfos)
    ##order by priority instead of random
    """
    if options.early:
        cache = sorted(getWorkflows(url, 'assignment-approved', details=True), key = lambda r : r['RequestPriority'])
        cache = [r['RequestName'] for r in cache]
        def rank( wfn ):
            return cache.index( wfn ) if wfn in cache else 0

        wfos = sorted(wfos, key = lambda wfo : rank( wfo.name ),reverse=True)
        print "10 first",[wfo.name for wfo in wfos[:10]]
        print "10 last",[wfo.name for wfo in wfos[-10:]]
    else:
        random.shuffle( wfos )
    """

    for wfo in wfos:

        if options.limit and (n_stalled + n_assigned) > options.limit:
            break

        if max_per_round and (n_stalled + n_assigned) > max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name, specific.split(','))):
                continue
            #if not specific in wfo.name: continue

        if not options.manual and 'rucio' in (wfo.name).lower(): continue
        print "\n\n"
        wfh = workflowInfo(url, wfo.name)

        if wfh.request['RequestStatus'] in [
                'rejected', 'aborted', 'aborted-completed', 'aborted-archived',
                'rejected-archived'
        ] and wfh.isRelval():
            wfo.status = 'forget'
            session.commit()
            n_stalled += 1
            continue

        if options.priority and int(
                wfh.request['RequestPriority']) < options.priority:
            continue

        options_text = ""
        if options.early: options_text += ", early option is ON"

        wfh.sendLog('assignor',
                    "%s to be assigned %s" % (wfo.name, options_text))

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput, primary, parent, secondary, sites_allowed,
         sites_not_allowed) = wfh.getSiteWhiteList()

        output_tiers = list(
            set([o.split('/')[-1] for o in wfh.request['OutputDatasets']]))

        if not output_tiers:
            n_stalled += 1
            wfh.sendLog('assignor', 'There is no output at all')
            sendLog('assignor',
                    'Workflow %s has no output at all' % (wfo.name),
                    level='critical')
            continue

        is_stuck = (all_stuck & primary)
        if is_stuck:
            wfh.sendLog('assignor',
                        "%s are stuck input" % (','.join(is_stuck)))

        ## check if by configuration we gave it a GO
        no_go = False
        if not wfh.go(log=True) and not options.go:
            no_go = True

        allowed_secondary = {}
        assign_parameters = {}
        check_secondary = (not wfh.isRelval())
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns:
                assign_parameters.update(CI.campaigns[campaign])

            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[
                    campaign]:
                if CI.campaigns[campaign]['secondaries']:
                    allowed_secondary.update(
                        CI.campaigns[campaign]['secondaries'])
                    check_secondary = True
            if campaign in CI.campaigns and 'banned_tier' in CI.campaigns[
                    campaign]:
                banned_tier = list(
                    set(CI.campaigns[campaign]['banned_tier'])
                    & set(output_tiers))
                if banned_tier:
                    no_go = True
                    wfh.sendLog(
                        'assignor', 'These data tiers %s are not allowed' %
                        (','.join(banned_tier)))
                    sendLog('assignor',
                            'These data tiers %s are not allowed' %
                            (','.join(banned_tier)),
                            level='critical')

        if secondary and check_secondary:
            if (set(secondary) & set(allowed_secondary.keys()) !=
                    set(secondary)):
                msg = '%s is not an allowed secondary' % (
                    ', '.join(set(secondary) - set(allowed_secondary.keys())))
                wfh.sendLog('assignor', msg)
                critical_msg = msg + '\nWorkflow URL: https://dmytro.web.cern.ch/dmytro/cmsprodmon/workflows.php?prep_id=task_{}'.format(
                    wfh.getPrepIDs()[0])
                sendLog('assignor', critical_msg, level='critical')
                if not options.go:
                    no_go = True
            ## then get whether there is something more to be done by secondary
            for sec in secondary:
                if sec in allowed_secondary:  # and 'parameters' in allowed_secondary[sec]:
                    assign_parameters.update(allowed_secondary[sec])

        if no_go:
            n_stalled += 1
            ## make a very loud noise if >100k priority stalled
            continue

        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] != 'assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',
                            "setting %s away and skipping" % wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name, wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version = wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor', "cannot decide on version number")
                n_stalled += 1
                wfo.status = 'trouble'
                session.commit()
                continue

        wfh.sendLog('assignor', "Site white list %s" % sorted(sites_allowed))

        blocks = wfh.getBlocks()
        if blocks:
            wfh.sendLog(
                'assignor',
                "Needs {} blocks in input {}".format(len(blocks),
                                                     '\n'.join(blocks)))
        wfh.sendLog('assignor', "Allowed %s" % sorted(sites_allowed))

        primary_aaa = options.primary_aaa
        secondary_aaa = options.secondary_aaa

        if 'Campaign' in wfh.request and wfh.request[
                'Campaign'] in CI.campaigns:
            assign_parameters.update(CI.campaigns[wfh.request['Campaign']])

        if 'primary_AAA' in assign_parameters and primary:
            primary_aaa = primary_aaa or assign_parameters['primary_AAA']
        if 'secondary_AAA' in assign_parameters:
            secondary_aaa = secondary_aaa or assign_parameters['secondary_AAA']

        wfh.sendLog(
            'assignor',
            "Initial values for primary_AAA=%s and secondary_AAA=%s" %
            (primary_aaa, secondary_aaa))

        if primary_aaa:
            if "T2_CH_CERN_HLT" in sites_allowed:
                sites_allowed.remove("T2_CH_CERN_HLT")
            if "T2_CH_CERN_HLT" not in sites_not_allowed:
                sites_not_allowed.append("T2_CH_CERN_HLT")

        ## keep track of this, after secondary input location restriction : that's how you want to operate it
        initial_sites_allowed = copy.deepcopy(sites_allowed)

        set_lfn = '/store/mc'  ## by default

        for prim in list(primary):
            set_lfn = getLFNbase(prim)
            ## if they are requested for processing, they should bbe all closed already
            # FIXME: remove this closeAllBlocks
            #closeAllBlocks(url, prim, blocks)

        ## should be 2 but for the time-being let's lower it to get things going
        _copies_wanted, cpuh = wfh.getNCopies()
        wfh.sendLog('assignor', "we need %s CPUh" % cpuh)
        if cpuh > max_cpuh_block and not options.go:
            #sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog(
                'assignor',
                '%s requires a large numbr of CPUh %s , not assigning, please check with requester'
                % (wfo.name, cpuh),
                level='critical')
            wfh.sendLog(
                'assignor',
                "Requiring a large number of CPUh %s, not assigning" % cpuh)
            continue

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        ## default back to white list to original white list with any data
        wfh.sendLog('assignor', "Allowed sites :%s" % sorted(sites_allowed))

        # TODO Alan on 1/april/2020: keep the AAA functionality
        if primary_aaa:
            ## remove the sites not reachable localy if not in having the data
            if not sites_allowed:
                wfh.sendLog('assignor',
                            "Overiding the primary on AAA setting to Off")
                primary_aaa = False
            else:
                aaa_grid = set(sites_allowed)
                for site in list(aaa_grid):
                    aaa_grid.update(aaa_mapping.get(site, []))
                sites_allowed = list(set(initial_sites_allowed) & aaa_grid)
                wfh.sendLog(
                    'assignor', "Selected to read primary through xrootd %s" %
                    sorted(sites_allowed))

        isStoreResults = ('StoreResults' == wfh.request.setdefault(
            'RequestType', None))

        if isStoreResults:
            if 'MergedLFNBase' in wfh.request:
                set_lfn = wfh.request['MergedLFNBase']
            else:
                n_stalled += 1
                wfh.sendLog(
                    'assignor',
                    "Cannot assign StoreResults request because MergedLFN is missing"
                )
                sendLog(
                    'assignor',
                    'Cannot assign StoreResults request because MergedLFN is missing',
                    level='critical')
                continue

        if not primary_aaa:
            if isStoreResults:
                ## if we are dealing with a StoreResults request, we don't need to check dataset availability and
                ## should use the SiteWhiteList set in the original request
                if 'SiteWhitelist' in wfh.request:
                    sites_allowed = wfh.request['SiteWhitelist']
                else:
                    wfh.sendLog(
                        'assignor',
                        "Cannot assign StoreResults request because SiteWhitelist is missing"
                    )
                    sendLog(
                        'assignor',
                        'Cannot assign StoreResults request because SiteWhitelist is missing',
                        level='critical')
                    n_stalled += 1
                    continue
            wfh.sendLog('assignor',
                        "Selected for any data %s" % sorted(sites_allowed))

        #if not len(sites_allowed):
        #    if not options.early:
        #        wfh.sendLog('assignor',"cannot be assign with no matched sites")
        #        sendLog('assignor','%s has no whitelist'% wfo.name, level='critical')
        #    n_stalled+=1
        #    continue

        if not len(sites_allowed) and not options.SiteWhitelist:
            if not options.early:
                wfh.sendLog('assignor',
                            "cannot be assign with no matched sites")
                sendLog('assignor',
                        '%s has no whitelist' % wfo.name,
                        level='critical')
            n_stalled += 1
            continue

        t1t2_only = [
            ce for ce in sites_allowed
            if [ce.startswith('T1') or ce.startswith('T2')]
        ]
        if t1t2_only:
            # try to pick from T1T2 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1t2_only])]
            # then pick any otherwise
        else:
            sites_out = [
                SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])
            ]

        print "available=", SI.disk[sites_out[0]]
        wfh.sendLog('assignor', "Placing the output on %s" % sites_out)
        parameters = {
            'SiteWhitelist': sites_allowed,
            'SiteBlacklist': sites_not_allowed,
            'NonCustodialSites': sites_out,
            'AutoApproveSubscriptionSites': list(set(sites_out)),
            'AcquisitionEra': wfh.acquisitionEra(),
            'ProcessingString': wfh.processingString(),
            'MergedLFNBase': set_lfn,
            'ProcessingVersion': version,
        }

        if primary_aaa:
            parameters['TrustSitelists'] = True
            wfh.sendLog(
                'assignor',
                "Reading primary through xrootd at %s" % sorted(sites_allowed))

        if secondary_aaa:
            # Do not set TrustPUSitelist to True if there is no secondary
            if secondary:
                parameters['TrustPUSitelists'] = True
                wfh.sendLog(
                    'assignor', "Reading secondary through xrootd at %s" %
                    sorted(sites_allowed))

        ## plain assignment here
        team = 'production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team
        parameters['Team'] = team

        if lheinput:
            ## throttle reading LHE article
            wfh.sendLog('assignor',
                        'Setting the number of events per job to 500k max')
            parameters['EventsPerJob'] = 500000

        def pick_options(options, parameters):
            ##parse options entered in command line if any
            if options:
                for key in reqMgrClient.assignWorkflow.keys:
                    v = getattr(options, key)
                    if v != None:
                        if type(v) == str and ',' in v:
                            parameters[key] = filter(None, v.split(','))
                        else:
                            parameters[key] = v

        def pick_campaign(assign_parameters, parameters):
            ## pick up campaign specific assignment parameters
            parameters.update(assign_parameters.get('parameters', {}))

        if options.force_options:
            pick_campaign(assign_parameters, parameters)
            pick_options(options, parameters)
        else:
            ## campaign parameters update last
            pick_options(options, parameters)
            pick_campaign(assign_parameters, parameters)

        if not options.test:
            parameters['execute'] = True

        hold_split, split_check = wfh.checkSplitting()
        if hold_split and not options.go:
            if split_check:
                wfh.sendLog(
                    'assignor', 'Holding on to the change in splitting %s' %
                    ('\n\n'.join([str(i) for i in split_check])))
            else:
                wfh.sendLog('assignor', 'Change of splitting is on hold')
            n_stalled += 1
            continue

        if split_check == None or split_check == False:
            n_stalled += 1
            continue
        elif split_check:
            ## operate all recommended changes
            reqMgrClient.setWorkflowSplitting(url, wfo.name, split_check)
            wfh.sendLog(
                'assignor', 'Applying the change in splitting %s' %
                ('\n\n'.join([str(i) for i in split_check])))

        split_check = True  ## bypass completely and use the above

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi) / float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents / (reqJobs * 1.4))
                lumisPerJob = int(eventsPerJob / eventsPerLumi)
                if lumisPerJob == 0:
                    #sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog('assignor',
                            "%s needs to be split by event with %s per job" %
                            (wfo.name, eventsPerJob),
                            level='critical')
                    wfh.sendLog(
                        'assignor',
                        "%s needs to be split by event with %s per job" %
                        (wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    # FIXME: decide which of the lines below needs to remain...
                    eventsPerJobEstimated = spl[
                        'events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl[
                        'avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        #sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog('assignor',
                                "%s was assigned with %s lumis/job" %
                                (wfo.name, lumisPerJob),
                                level='critical')
                        wfh.sendLog(
                            'assignor', "%s was assigned with %s lumis/job" %
                            (wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        #sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog(
                            'assignor',
                            "leaving splitting untouched for %s, please check on %s"
                            % (pstring, wfo.name),
                            level='critical')
                        wfh.sendLog(
                            'assignor',
                            "leaving splitting untouched for PU_RD*, please check."
                        )

        ## make sure to autoapprove all NonCustodialSites
        parameters['AutoApproveSubscriptionSites'] = list(
            set(parameters['NonCustodialSites'] +
                parameters.get('AutoApproveSubscriptionSites', [])))
        result = reqMgrClient.assignWorkflow(
            url, wfo.name, None,
            parameters)  ## team is not relevant anymore here

        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned += 1
                wfh.sendLog(
                    'assignor', "Properly assigned\n%s" %
                    (json.dumps(parameters, indent=2)))
                if wfh.producePremix() and (not wfh.isRelval()):
                    title = "Heavy workflow assigned to {}".format(
                        parameters['SiteWhitelist'])
                    body = "Workflow name: {}".format(
                        wfh.request['RequestName'])
                    body += "\nOutput dataset(s): {}".format(
                        wfh.request['OutputDatasets'])
                    body += "\nAssigned to: {}".format(
                        parameters['SiteWhitelist'])
                    sendEmail(
                        title,
                        body,
                        destination=[
                            '*****@*****.**'
                        ])

                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo(url, wfo.name)
                    (_, prim, _, sec) = new_wfi.getIO()
                    for secure in list(prim) + list(
                            sec) + new_wfi.request['OutputDatasets']:
                        ## lock all outputs
                        LI.lock(secure, reason='assigning')

                except Exception as e:
                    print "fail in locking output"

                    print str(e)
                    sendEmail("failed locking of output", str(e))

            else:
                wfh.sendLog(
                    'assignor',
                    "Failed to assign %s.\n%s \n Please check the logs" %
                    (wfo.name, reqMgrClient.assignWorkflow.errorMessage))
                sendLog('assignor',
                        "Failed to assign %s.\n%s \n Please check the logs" %
                        (wfo.name, reqMgrClient.assignWorkflow.errorMessage),
                        level='critical')
                print "ERROR could not assign", wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor', "Assigned %d Stalled %s" % (n_assigned, n_stalled))
    if n_stalled and not options.go and not options.early:
        sendLog('assignor',
                "%s workflows cannot be assigned. Please take a look" %
                (n_stalled),
                level='critical')
Ejemplo n.º 45
0
def assignor(url ,specific = None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    #if notRunningBefore( 'stagor' ): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    SI = global_SI
    #LI = lockInfo()
    NLI = newLockInfo()

    n_assigned = 0
    n_stalled = 0

    wfos=[]
    if specific:
        wfos = session.query(Workflow).filter(Workflow.name==specific).all()
    if not wfos:
        if specific:
            wfos = session.query(Workflow).filter(Workflow.status=='considered').all()
            wfos.extend( session.query(Workflow).filter(Workflow.status=='staging').all())
        wfos.extend(session.query(Workflow).filter(Workflow.status=='staged').all())

    for wfo in wfos:
        if specific:
            if not any(map(lambda sp: sp in wfo.name,specific.split(','))): continue
            #if not specific in wfo.name: continue
        print "\n\n",wfo.name,"\n\tto be assigned"
        wfh = workflowInfo( url, wfo.name)


        ## check if by configuration we gave it a GO
        if not CI.go( wfh.request['Campaign'] ) and not options.go:
            print "No go for",wfh.request['Campaign']
            n_stalled+=1
            continue

        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] !='assignment-approved':
            if not options.test:
                print wfo.name,wfh.request['RequestStatus'],"setting away and skipping"
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name,wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version=wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                print "cannot decide on version number"
                n_stalled+=1
                continue

        #(lheinput,primary,parent,secondary) = wfh.getIO()
        #sites_allowed = getSiteWhiteList( (lheinput,primary,parent,secondary) )
        (lheinput,primary,parent,secondary, sites_allowed) = wfh.getSiteWhiteList()

        print "Site white list",sorted(sites_allowed)

        override_sec_location = CI.get(wfh.request['Campaign'], 'SecondaryLocation', [])

        c_sites_allowed = CI.get(wfh.request['Campaign'], 'SiteWhitelist' , [])
        if c_sites_allowed:
            print "Would like to use the new whitelist, but will not until things went through a bit"
            sendEmail("using a restricted site white list","for %s"%(c_sites_allowed))
            sites_allowed = list(set(sites_allowed) & set(c_sites_allowed))

        c_black_list = CI.get(wfh.request['Campaign'], 'SiteBlacklist', [])
        if c_black_list:
            print "Reducing the whitelist due to black list in campaign configuration"
            print "Removing",c_black_list
            sites_allowed = list(set(sites_allowed) - set(c_black_list))

        blocks = []
        if 'BlockWhitelist' in wfh.request:
            blocks = wfh.request['BlockWhitelist']

        ncores = wfh.request.get('Multicore',1)
        memory_allowed = SI.sitesByMemory( wfh.request['Memory'] , maxCore=ncores)
        if memory_allowed!=None:
            print "sites allowing", wfh.request['Memory'],"MB and",ncores,"core are",memory_allowed
            sites_allowed = list(set(sites_allowed) & set(memory_allowed))
        

        print "Allowed",sorted(sites_allowed)
        secondary_locations=None
        for sec in list(secondary):
            if override_sec_location: 
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                sendEmail("tempting to pass sec location check","but we cannot yet IMO")
                #pass

            presence = getDatasetPresence( url, sec )
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [site for (site,(there,frac)) in presence.items() if frac>98.]
            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations==None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [site for site in sites_allowed if SI.CE_to_SE(site) in one_secondary_locations]
            
        print "From secondary requirement, now Allowed",sorted(sites_allowed)

        initial_sites_allowed = copy.deepcopy( sites_allowed ) ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy( sites_allowed )
        sites_with_data = copy.deepcopy( sites_allowed )
        sites_with_any_data = copy.deepcopy( sites_allowed )
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc' ## by default
        for prim in list(primary):
            set_lfn = getLFNbase( prim )
            presence = getDatasetPresence( url, prim , only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] =  getDatasetBlocksFraction(url, prim, sites = [SI.CE_to_SE(site) for site in sites_allowed] , only_blocks = blocks)
            #sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            #sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,(there,frac)) in presence.items() if there]]
            sites_with_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,frac) in presence.items() if frac[1]>90.]]
            sites_with_any_data = [site for site in sites_with_any_data if SI.CE_to_SE(site) in presence.keys()]
            print "Holding the data but not allowed",list(set([se_site for se_site in presence.keys() if not SI.SE_to_CE(se_site) in sites_allowed]))
            if primary_locations==None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(set(primary_locations) & set(presence.keys() ))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites=[]
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations)) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            elif primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list(set(primary_locations) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            else:
                opportunistic_sites = []
            print "We could be running at",sorted(opportunistic_sites),"in addition"
            if any([osite in SI.sites_not_ready for osite in opportunistic_sites]):
                print "One of the destination site is in downtime"
                down_time = True
                ## should this be send back to considered ?
                

        """
        if available_fractions and not all([available>=1. for available in available_fractions.values()]):
            print "The input dataset is not located in full over sites"
            print json.dumps(available_fractions)
            if not options.test and not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known:
                    sendEmail( "cannot be assigned","%s is not full over sites \n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append( wfo.name )
                    open('cannot_assign.json','w').write(json.dumps( known, indent=2))
                n_stalled+=1
                continue ## skip skip skip
        """

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted,cpuh = wfh.getNCopies()
        less_copies_than_requested = UC.get("less_copies_than_requested")
        copies_wanted = max(1,copies_wanted-less_copies_than_requested) # take one out for the efficiency

        if available_fractions and not all([available>=copies_wanted for available in available_fractions.values()]):
            not_even_once = not all([available>=1. for available in available_fractions.values()])
            print "The input dataset is not available",copies_wanted,"times, only",available_fractions.values()
            if down_time and not options.go:
                wfo.status = 'considered'
                session.commit()
                print "sending back to considered because of site downtime, instead of waiting"
                sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known:
                    sendEmail( "cannot be assigned","%s is not sufficiently available. Probably phedex information lagging behind. \n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append( wfo.name )
                    open('cannot_assign.json','w').write(json.dumps( known, indent=2))
                n_stalled+=1
                continue

        ## default back to white list to original white list with any data
        print "Allowed",sites_allowed
        if options.primary_aaa:
            sites_allowed = initial_sites_allowed
            options.useSiteListAsLocation = True
        else:
            sites_allowed = sites_with_any_data
            print "Selected for any data",sites_allowed

        if options.restrict:
            print "Allowed",sites_allowed
            sites_allowed = sites_with_any_data
            print "Selected",sites_allowed
        else:
            if set(sites_with_data) != set(sites_allowed):
                ## the data is not everywhere we wanted to run at : enable aaa
                print "Sites with 90% data not matching site white list (block choping!)"
                print "Resorting to AAA reading for",list(set(sites_allowed) - set(sites_with_data)),"?"
                print "Whitelist site with any data",list(set(sites_allowed) - set(sites_with_any_data))
                #options.useSiteListAsLocation = True
                #print "Not commissioned yet"
                #continue
            #print "We could be running at",opportunistic_sites,"in addition"
            ##sites_allowed = list(set(sites_allowed+ opportunistic_sites))

        if not len(sites_allowed):
            print wfo.name,"cannot be assign with no matched sites"
            sendEmail( "cannot be assigned","%s has no whitelist"%(wfo.name))
            n_stalled+=1
            continue

        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])]


        print "Placing the output on", sites_out
        parameters={
            'SiteWhitelist' : sites_allowed,
            #'CustodialSites' : sites_custodial,
            'NonCustodialSites' : sites_out,
            'AutoApproveSubscriptionSites' : list(set(sites_out)),
            'AcquisitionEra' : wfh.acquisitionEra(),
            'ProcessingString' : wfh.processingString(),
            'MergedLFNBase' : set_lfn,
            'ProcessingVersion' : version,
            }


        ## plain assignment here
        team='production'
        if options and options.team:
            team = options.team

        #if wfh.request['RequestPriority'] >= 100000 and (wfh.request['TimePerEvent']*int(wfh.getRequestNumEvents()))/(8*3600.) < 10000:
        #    team = 'highprio'
        #    sendEmail("sending work with highprio team","%s"% wfo.name, destination=['*****@*****.**'])

        if "T2_US_UCSD" in sites_with_data and random.random() < -0.5 and wfh.request['Campaign']=='RunIISpring15DR74' and int(wfh.getRequestNumEvents()) < 600000 and not any([out.endswith('RAW') for out in wfh.request['OutputDatasets']]):
            ## consider SDSC
            parameters['SiteWhitelist'] = ['T2_US_UCSD','T3_US_SDSC']
            parameters['useSiteListAsLocation'] = True
            team = 'allocation-based'
            sendEmail("sending work to SDSC","%s was assigned to SDSC/UCSD"% wfo.name, destination=['*****@*****.**'])
            
        if wfh.request['Campaign']=='RunIIWinter15GS' and random.random() < -1.0:
            parameters['SiteWhitelist'] = ['T3_US_SDSC']
            team = 'allocation-based'
            sendEmail("sending work to SDSC","%s was assigned to SDSC"% wfo.name, destination=['*****@*****.**'])
        

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v=getattr(options,key)
                if v!=None:
                    if type(v)==str and ',' in v: 
                        parameters[key] = filter(None,v.split(','))
                    else: 
                        parameters[key] = v

        ## pick up campaign specific assignment parameters
        parameters.update( CI.parameters(wfh.request['Campaign']) )

        if not options.test:
            parameters['execute'] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check!=True:
            parameters.update( split_check )
            if 'EventBased' in split_check.values():
                print "Falling back to event splitting."
                sendEmail("Fallback to EventBased","the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"%wfo.name)
            elif 'EventsPerJob' in split_check.values():
                print "Modifying the number of job per event"
                sendEmail("Modifying the job per events","the workflow %s is too heavy in number of jobs explosion"%wfo.name)

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi)/float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents/(reqJobs*1.4))
                lumisPerJob = int(eventsPerJob/eventsPerLumi)
                if lumisPerJob==0:
                    print "There is no go for assigning that request without event splitting"
                    sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    print "need to go down to",eventsPerJob,"events per job"
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl['events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl['avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        print "need to go down to",lumisPerJob,"in assignment"
                        sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        print "the regular splitting should work for",pstring
                        sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)

        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)


        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned+=1
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo( url, wfo.name)
                    (_,prim,_,sec) = new_wfi.getIO()
                    for secure in list(prim)+list(sec)+new_wfi.request['OutputDatasets']:
                        ## lock all outputs flat
                        NLI.lock( secure )
                    #for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"
                    print str(e)
                    sendEmail("failed locking of output",str(e))


            else:
                print "ERROR could not assign",wfo.name
        else:
            pass
    print "Assignment summary:"
    print "Assigned",n_assigned
    print "Stalled",n_stalled
Ejemplo n.º 46
0
def stagor(url,specific =None, options=None):
    
    if not componentInfo().check(): return
    SI = siteInfo()
    CI = campaignInfo()
    UC = unifiedConfiguration()

    done_by_wf_id = {}
    done_by_input = {}
    completion_by_input = {}
    good_enough = 100.0
    
    lost = json.loads(open('lost_blocks_datasets.json').read())
    still_lost = []
    for dataset in lost:
        l = findLostBlocks(url ,dataset)
        if not l:
            print dataset,"is not really lost"
        else:
            still_lost.append( dataset )
    open('lost_blocks_datasets.json','w').write( json.dumps( still_lost, indent=2) )

    if options.fast:
        print "doing the fast check of staged with threshold:",options.goodavailability
        for wfo in session.query(Workflow).filter(Workflow.status == 'staging').all():
            if specific and not specific in wfo.name: continue
            wfi = workflowInfo(url, wfo.name)
            sites_allowed = getSiteWhiteList( wfi.getIO() )
            if 'SiteWhitelist' in CI.parameters(wfi.request['Campaign']):
                sites_allowed = CI.parameters(wfi.request['Campaign'])['SiteWhitelist']
            if 'SiteBlacklist' in CI.parameters(wfi.request['Campaign']):
                sites_allowed = list(set(sites_allowed) - set(CI.parameters(wfi.request['Campaign'])['SiteBlacklist']))
            _,primaries,_,secondaries = wfi.getIO()
            se_allowed = [SI.CE_to_SE(site) for site in sites_allowed] 
            all_check = True
            for dataset in list(primaries):#+list(secondaries) ?
                #print se_allowed
                available = getDatasetBlocksFraction( url , dataset , sites=se_allowed )
                all_check &= (available >= options.goodavailability)
                if not all_check: break

            if all_check:
                print "\t\t",wfo.name,"can go staged"
                wfo.status = 'staged'
                session.commit()
            else:
                print "\t",wfo.name,"can wait a bit more"
        return 

    for wfo in session.query(Workflow).filter(Workflow.status == 'staging').all():
        wfi = workflowInfo(url, wfo.name)
        _,primaries,_,secondaries = wfi.getIO()
        for dataset in list(primaries)+list(secondaries):
            done_by_input[dataset] = {}
            completion_by_input[dataset] = {}
            print wfo.name,"needs",dataset

    for transfer in session.query(Transfer).all():
        if specific  and str(transfer.phedexid)!=str(specific): continue

        skip=True
        for wfid in transfer.workflows_id:
            tr_wf = session.query(Workflow).get(wfid)
            if tr_wf: 
                if tr_wf.status == 'staging':
                    print "\t",transfer.phedexid,"is staging for",tr_wf.name
                    skip=False

        if skip: continue
        if transfer.phedexid<0: continue

        ## check the status of transfers
        checks = checkTransferApproval(url,  transfer.phedexid)
        approved = all(checks.values())
        if not approved:
            print transfer.phedexid,"is not yet approved"
            approveSubscription(url, transfer.phedexid)
            continue

        ## check on transfer completion
        checks = checkTransferStatus(url, transfer.phedexid, nocollapse=True)

        if not specific:
            for dsname in checks:
                if not dsname in done_by_input: done_by_input[dsname]={}
                if not dsname in completion_by_input: completion_by_input[dsname] = {}
                done_by_input[dsname][transfer.phedexid]=all(map(lambda i:i>=good_enough, checks[dsname].values()))
                completion_by_input[dsname][transfer.phedexid]=checks[dsname].values()
        if checks:
            print "Checks for",transfer.phedexid,[node.values() for node in checks.values()]
            done = all(map(lambda i:i>=good_enough,list(itertools.chain.from_iterable([node.values() for node in checks.values()]))))
        else:
            ## it is empty, is that a sign that all is done and away ?
            print "ERROR with the scubscriptions API of ",transfer.phedexid
            print "Most likely something else is overiding the transfer request. Need to work on finding the replacement automatically, if the replacement exists"
            done = False

        ## the thing above is NOT giving the right number
        #done = False

        for wfid in transfer.workflows_id:
            tr_wf = session.query(Workflow).get(wfid)
            if tr_wf:# and tr_wf.status == 'staging':  
                if not tr_wf.id in done_by_wf_id: done_by_wf_id[tr_wf.id]={}
                done_by_wf_id[tr_wf.id][transfer.phedexid]=done


        if done:
            ## transfer.status = 'done'
            print transfer.phedexid,"is done"
        else:
            print transfer.phedexid,"not finished"
            pprint.pprint( checks )

    #print done_by_input
    print "\n----\n"
    for dsname in done_by_input:
        fractions = None
        if dsname in completion_by_input:
            fractions = itertools.chain.from_iterable([check.values() for check in completion_by_input.values()])
        
        ## the workflows in the waiting room for the dataset
        using_its = getWorkflowByInput(url, dsname)
        #print using_its
        using_wfos = []
        for using_it in using_its:
            wf = session.query(Workflow).filter(Workflow.name == using_it).first()
            if wf:
                using_wfos.append( wf )
        
        if not len(done_by_input[dsname]):
            print "For dataset",dsname,"there are no transfer report. That's an issue."
            for wf in using_wfos:
                if wf.status == 'staging':
                    if UC.get("stagor_sends_back"):
                        print "sending",wf.name,"back to considered"
                        wf.status = 'considered'
                        session.commit()
                        sendEmail( "send back to considered","%s was send back and might be trouble"% wf.name)
                    else:
                        print "would send",wf.name,"back to considered"
                        sendEmail( "subscription lagging behind","susbscriptions to get %s running are not appearing in phedex. I would have send it back to considered but that's not good."% wf.name)
            continue

        #need_sites = int(len(done_by_input[dsname].values())*0.7)+1
        need_sites = len(done_by_input[dsname].values())
        #if need_sites > 10:            need_sites = int(need_sites/2.)
        got = done_by_input[dsname].values().count(True)
        if all([wf.status != 'staging' for wf in using_wfos]):
            ## not a single ds-using wf is in staging => moved on already
            ## just forget about it
            print "presence of",dsname,"does not matter anymore"
            print "\t",done_by_input[dsname]
            print "\t",[wf.status for wf in using_wfos]
            print "\tneeds",need_sites
            continue #??
            
        ## should the need_sites reduces with time ?
        # with dataset choping, reducing that number might work as a block black-list.

        if len(done_by_input[dsname].values()) and all(done_by_input[dsname].values()):
            print dsname,"is everywhere we wanted"
            ## the input dataset is fully transfered, should consider setting the corresponding wf to staged
            for wf in using_wfos:
                if wf.status == 'staging':
                    print wf.name,"is with us. setting staged and move on"
                    wf.status = 'staged'
                    session.commit()
        elif fractions and len(list(fractions))>1 and set(fractions)==1:
            print dsname,"is everywhere at the same fraction"
            print "We do not want this in the end. we want the data we asked for"
            continue
            ## the input dataset is fully transfered, should consider setting the corresponding wf to staged
            for wf in using_wfos:
                if wf.status == 'staging':
                    print wf.name,"is with us everywhere the same. setting staged and move on"
                    wf.status = 'staged'
                    session.commit()
        elif got >= need_sites:
            print dsname,"is almost everywhere we wanted"
            #print "We do not want this in the end. we want the data we asked for"
            #continue
            ## the input dataset is fully transfered, should consider setting the corresponding wf to staged
            for wf in using_wfos:
                if wf.status == 'staging':
                    print wf.name,"is almost with us. setting staged and move on"
                    wf.status = 'staged'
                    session.commit()
        else:
            print "incomplete",dsname
            lost = findLostBlocks(url, dsname)
            try:
                known_lost = json.loads(open('lost_blocks_datasets.json').read())
            except:
                print "enable to get the known_lost from local json file"
                known_lost = []

            if lost and not dsname in known_lost:
                lost_names = [item['name'] for item in lost]
                ## make a deeper investigation of the block location to see whether it's really no-where no-where

                print "We have lost",len(lost),"blocks",lost_names
                #print json.dumps( lost , indent=2 )
                sendEmail('we have lost a few blocks', str(len(lost))+" in total.\nDetails \n:"+json.dumps( lost , indent=2 ))
                known_lost.append(dsname)
                rr= open('lost_blocks_datasets.json','w')
                rr.write( json.dumps( known_lost, indent=2))
                rr.close()
                ## should the status be change to held-staging and pending on a ticket



            print "\t",done_by_input[dsname]
            print "\tneeds",need_sites
            print "\tgot",got

    for wfid in done_by_wf_id:
        #print done_by_wf_id[wfid].values()
        ## ask that all related transfer get into a valid state
        if all(done_by_wf_id[wfid].values()):
            pass
Ejemplo n.º 47
0
def closor(url, specific=None):
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    #LI = lockInfo()

    all_late_files = []
    check_fullcopy_to_announce = UC.get('check_fullcopy_to_announce')
    ## manually closed-out workflows should get to close with checkor
    if specific:
        wfs = session.query(Workflow).filter(Workflow.name.contains(specific)).all()
    else:
        wfs = session.query(Workflow).filter(Workflow.status=='close').all()

    held = set()

    for wfo in wfs:

        if specific and not specific in wfo.name: continue

        ## what is the expected #lumis 
        wfi = workflowInfo(url, wfo.name )
        wfo.wm_status = wfi.request['RequestStatus']

        if wfi.request['RequestStatus'] in  ['announced','normal-archived']:
            ## manually announced ??
            wfo.status = 'done'
            wfo.wm_status = wfi.request['RequestStatus']
            wfi.sendLog('closor','%s is announced already : %s'%( wfo.name,wfo.wm_status))
        session.commit()


        expected_lumis = 1
        if not 'TotalInputLumis' in wfi.request:
            print wfo.name,"has not been assigned yet, or the database is corrupted"
        else:
            expected_lumis = wfi.request['TotalInputLumis']

        ## what are the outputs
        outputs = wfi.request['OutputDatasets']
        ## check whether the number of lumis is as expected for each
        all_OK = defaultdict(lambda : False)
        #print outputs
        if len(outputs): 
            print wfo.name,wfi.request['RequestStatus']
        for out in outputs:
            event_count,lumi_count = getDatasetEventsAndLumis(dataset=out)
            odb = session.query(Output).filter(Output.datasetname==out).first()
            if not odb:
                print "adding an output object",out
                odb = Output( datasetname = out )
                odb.workflow = wfo
                session.add( odb )
            odb.nlumis = lumi_count
            odb.nevents = event_count
            odb.workfow_id = wfo.id
            if odb.expectedlumis < expected_lumis:
                odb.expectedlumis = expected_lumis
            else:
                expected_lumis = odb.expectedlumis
            odb.date = time.mktime(time.gmtime())
            session.commit()

            wfi.sendLog('closor',"\t%60s %d/%d = %3.2f%%"%(out,lumi_count,expected_lumis,lumi_count/float(expected_lumis)*100.))
            #print wfo.fraction_for_closing, lumi_count, expected_lumis
            #fraction = wfo.fraction_for_closing
            #fraction = 0.0
            #all_OK.append((float(lumi_count) > float(expected_lumis*fraction)))
            all_OK[out] = True 


        ## check for at least one full copy prior to moving on
        in_full = {}
        for out in outputs:
            in_full[out] = []
            presence = getDatasetPresence( url, out )
            where = [site for site,info in presence.items() if info[0]]
            if where:
                all_OK[out] = True
                print out,"is in full at",",".join(where)
                in_full[out] = copy.deepcopy(where)
            else:

                going_to = wfi.request['NonCustodialSites']+wfi.request['CustodialSites']
                wfi.sendLog('closor',"%s is not in full anywhere. send to %s"%(out, ",".join(sorted(going_to))))
                at_destination = dict([(k,v) for (k,v) in presence.items() if k in going_to])
                else_where = dict([(k,v) for (k,v) in presence.items() if not k in going_to])
                print json.dumps( at_destination )
                print json.dumps( else_where, indent=2 )
                ## do the full stuck transfer study, missing files and shit !
                for there in going_to:
                    late_info = findLateFiles(url, out, going_to = there )
                    for l in late_info:
                        l.update({"workflow":wfo.name,"dataset":out})
                    all_late_files.extend( late_info )
                if check_fullcopy_to_announce:
                    ## only set this false if the check is relevant
                    all_OK[out] = False

    
        ## verify if we have to do harvesting

        (OK, requests) = spawn_harvesting(url, wfi, in_full)
        all_OK.update( OK )

        ## only that status can let me go into announced
        if all(all_OK.values()) and wfi.request['RequestStatus'] in ['closed-out']:
            print wfo.name,"to be announced"
            results=[]#'dummy']
            if not results:
                for out in outputs:
                    if all_OK[out]:
                        results.append(setDatasetStatus(out, 'VALID'))
                        tier = out.split('/')[-1]
                        campaign = None
                        try:
                            campaign = out.split('/')[2].split('-')[0]
                        except:
                            if 'Campaign' in wfi.request and wfi.request['Campaign']:
                                campaign = wfi.request['Campaign']
                        to_DDM = False
                        ## campaign override
                        if campaign and campaign in CI.campaigns and 'toDDM' in CI.campaigns[campaign] and tier in CI.campaigns[campaign]['toDDM']:
                            to_DDM = True
                        ## by typical enabling
                        if tier in UC.get("tiers_to_DDM"):
                            to_DDM = True
                        ## check for unitarity
                        if not tier in UC.get("tiers_no_DDM")+UC.get("tiers_to_DDM"):
                            print "tier",tier,"neither TO or NO DDM for",out
                            results.append('Not recognitized tier %s'%tier)
                            sendEmail("failed DDM injection","could not recognize %s for injecting in DDM"% out)
                            continue

                        n_copies = 2
                        destinations=[]
                        if to_DDM and campaign and campaign in CI.campaigns and 'DDMcopies' in CI.campaigns[campaign]:
                            ddm_instructions = CI.campaigns[campaign]['DDMcopies']
                            if type(ddm_instructions) == int:
                                n_copies = CI.campaigns[campaign]['DDMcopies']
                            elif type(ddm_instructions) == dict:
                                ## a more fancy configuration
                                for ddmtier,indication in ddm_instructions.items():
                                    if ddmtier==tier or ddmtier in ['*','all']:
                                        ## this is for us
                                        if 'N' in indication:
                                            n_copies = indication['N']
                                        if 'host' in indication:
                                            destinations = indication['host']
                                            
                        destination_spec = ""
                        if destinations:
                            destination_spec = "--destination="+",".join( destinations )
                        ## inject to DDM when necessary
                        if to_DDM:
                            #print "Sending",out," to DDM"
                            p = os.popen('python assignDatasetToSite.py --nCopies=%d --dataset=%s %s --exec'%(n_copies, out,destination_spec))
                            print p.read()
                            status = p.close()
                            if status!=None:
                                print "Failed DDM, retrying a second time"
                                p = os.popen('python assignDatasetToSite.py --nCopies=%d --dataset=%s %s --exec'%(n_copies, out,destination_spec))
                                print p.read()
                                status = p.close()    
                                if status!=None:
                                    sendEmail("failed DDM injection","could not add "+out+" to DDM pool. check closor logs.")
                            results.append( status )
                            if status == None:
                                wfi.sendLog('closor','%s is send to AnalysisOps DDM pool in %s copies %s'%( n_copies, out,destination_spec))
                                                            
                    else:
                        print wfo.name,"no stats for announcing",out
                        results.append('No Stats')

                if all(map(lambda result : result in ['None',None,True],results)):
                    ## only announce if all previous are fine
                    res = reqMgrClient.announceWorkflowCascade(url, wfo.name)
                    if not res in ['None',None]:
                        ## check the status again, it might well have toggled
                        wl_bis = workflowInfo(url, wfo.name)
                        wfo.wm_status = wl_bis.request['RequestStatus']
                        session.commit()
                        if wl_bis.request['RequestStatus'] in  ['announced','normal-archived']:
                            res = None
                        else:
                            ## retry ?
                            res = reqMgrClient.announceWorkflowCascade(url, wfo.name) 
                            
                    results.append( res )
                                
            #print results
            if all(map(lambda result : result in ['None',None,True],results)):
                wfo.status = 'done'
                session.commit()
                wfi.sendLog('closor',"workflow is announced")
            else:
                print "ERROR with ",wfo.name,"to be announced",json.dumps( results )
                
        else:
            print wfo.name,"not good for announcing:",wfi.request['RequestStatus']
            wfi.sendLog('closor',"cannot be announced")
            held.add( wfo.name )

    days_late = 0.
    retries_late = 10

    really_late_files = [info for info in all_late_files if info['retries']>=retries_late]
    really_late_files = [info for info in really_late_files if info['delay']/(60*60*24.)>=days_late]

    if really_late_files:
        subject = 'These %d files are lagging for %d days and %d retries announcing dataset \n%s'%(len(really_late_files), days_late, retries_late, json.dumps( really_late_files , indent=2) )
        sendEmail('waiting for files to announce', subject)
        sendLog('closor',subject)
        print subject
        open('%s/stuck_files.json'%monitor_dir,'w').write( json.dumps( really_late_files , indent=2))

    if held:
        sendEmail("held from announcing","the workflows below are held up, please check the logs https://cmst2.web.cern.ch/cmst2/unified/logs/closor/last.log \n%s"%("\n".join( held )))
Ejemplo n.º 48
0
                                  "%Y-%m-%d-%H-%M-%S"))
                secondary_timeout[dataset] = max(secondary_timeout[dataset], d)

        if secondary_timeout[dataset]:  ## different than zero
            delay_days = 30
            delay = delay_days * 24 * 60 * 60  # 30 days
            if (now - secondary_timeout[dataset]) > delay:
                print "unlocking secondary input after", delay_days, "days"
                unlock = True

        tier = dataset.split('/')[-1]
        creators = getWorkflowByOutput(url, dataset, details=True)
        if not creators and not tier == 'RAW':
            ds_status = getDatasetStatus(dataset)
            if not '-v0/' in dataset and ds_status != None:
                sendEmail('failing get by output',
                          '%s has not been produced by anything?' % dataset)
                newly_locking.add(dataset)
                continue
            else:
                # does not matter, cannot be an OK dataset
                unlock = True
                bad_ds = True
        creators_status = [r['RequestStatus'] for r in creators]
        print "Statuses of workflow that made the dataset", dataset, "are", creators_status
        if all([
                status in [
                    'failed', 'aborted', 'rejected', 'aborted-archived',
                    'rejected-archived'
                ] for status in creators_status
        ]):
            ## crap
Ejemplo n.º 49
0
def spawn_harvesting(url, wfi , in_full):
    SI = siteInfo()
    
    all_OK = {}
    requests = []
    outputs = wfi.request['OutputDatasets'] 
    if ('EnableHarvesting' in wfi.request and wfi.request['EnableHarvesting']) or ('DQMConfigCacheID' in wfi.request and wfi.request['DQMConfigCacheID']):
        if not 'MergedLFNBase' in wfi.request:
            print "f****d up"
            sendEmail('screwed up wl cache','%s wl cache is bad'%(wfi.request['RequestName']))
            all_OK['fake'] = False
            return all_OK,requests

        wfi = workflowInfo(url, wfi.request['RequestName'])
        dqms = [out for out in outputs if '/DQM' in out]
        if not all([in_full[dqm_input] for dqm_input in dqms]):
            wfi.sendLog('closor',"will not be able to assign the harvesting: holding up")
            for dqm_input in dqms:
                all_OK[dqm_input] = False
                return all_OK,requests

        for dqm_input in dqms:
            ## handle it properly
            harvesting_schema = {
                'Requestor': os.getenv('USER'),
                'RequestType' : 'DQMHarvest',
                'Group' : 'DATAOPS'
                }
            copy_over = ['ProcessingString',
                         'DQMUploadUrl',
                         'CMSSWVersion',
                         'CouchDBName',
                         'CouchWorkloadDBName',
                         'CouchURL',
                         'DbsUrl',
                         'inputMode',
                         'DQMConfigCacheID',
                         'OpenRunningTimeout',
                         'ScramArch',
                         'CMSSWVersion',
                         'Campaign',
                         'Memory', #dummy
                         'SizePerEvent', #dummy
                         'GlobalTag', #dummy
                         ]
            for item in copy_over:
                harvesting_schema[item] = copy.deepcopy(wfi.request[item])
            harvesting_schema['InputDataset'] = dqm_input
            harvesting_schema['TimePerEvent'] = 1
            harvesting_schema['PrepID'] = 'Harvest-'+wfi.request['PrepID']
            harvesting_schema['RequestString'] = 'HARVEST-'+wfi.request['RequestString']
            harvesting_schema['DQMHarvestUnit'] = 'byRun'
            harvesting_schema['ConfigCacheUrl'] = harvesting_schema['CouchURL'] ## uhm, how stupid is that ?
            harvesting_schema['RequestPriority'] = wfi.request['RequestPriority']*10

            harvest_request = reqMgrClient.submitWorkflow(url, harvesting_schema)
            if not harvest_request:
                print "Error in making harvesting for",wfo.name
                print "schema"
                print json.dumps( harvesting_schema, indent = 2)
                harvest_request = reqMgrClient.submitWorkflow(url, harvesting_schema)
                if not harvest_request:
                    print "Error twice in harvesting for",wfo.name
                    print "schema"
                    print json.dumps( harvesting_schema, indent = 2)

            if harvest_request:
                requests.append( harvest_request )
                ## should we protect for setting approved ? no, it's notified below, assignment will fail, likely
                data = reqMgrClient.setWorkflowApproved(url, harvest_request)
                print "created",harvest_request,"for harvesting of",dqm_input
                wfi.sendLog('closor',"created %s for harvesting of %s"%( harvest_request, dqm_input))
                ## assign it directly
                team = wfi.request['Teams'][0]
                parameters={
                    'SiteWhitelist' : [SI.SE_to_CE(se) for se in wfi.request['NonCustodialSites']],
                    'AcquisitionEra' : wfi.acquisitionEra(),
                    'ProcessingString' : wfi.processingString(),
                    'MergedLFNBase' : wfi.request['MergedLFNBase'], 
                    'ProcessingVersion' : wfi.request['ProcessingVersion'],
                    'execute' : True
                    }
                if in_full[dqm_input]:
                    print "using full copy at",in_full[dqm_input]
                    parameters['SiteWhitelist'] = [SI.SE_to_CE(se) for se in in_full[dqm_input]]
                else:
                    print "cannot do anything if not having a full copy somewhere"
                    all_OK[dqm_input]=False
                    continue

                result = reqMgrClient.assignWorkflow(url, harvest_request, team, parameters)
                if not result:
                    sendEmail('harvesting request created','%s was created at announcement of %s in %s, failed to assign'%(harvest_request, dqm_input, wfi.request['RequestName']), destination=[wfi.request['Requestor']+'@cern.ch'])
                else:
                    sendEmail('harvesting request assigned','%s was created at announcement of %s in %s, and assigned'%(harvest_request, dqm_input, wfi.request['RequestName']), destination=[wfi.request['Requestor']+'@cern.ch']) 
                    wfi.sendLog('closor','%s was created at announcement of %s in %s, and assigned'%(harvest_request, dqm_input, wfi.request['RequestName']))

            else:
                print "could not make the harvesting for",wfo.name,"not announcing"
                wfi.sendLog('closor',"could not make the harvesting request")
                all_OK[dqm_input]=False                    
    return (all_OK, requests)
Ejemplo n.º 50
0
    sys.exit(1)

for out in all_outs:
    if out.workflow.status in [
            'done-unlock', 'done', 'clean', 'clean-out', 'clean-unlock'
    ]:
        out_week = int(time.strftime("%W", time.gmtime(out.date)))
        if last_week == out_week:
            (_, _, _, tier) = out.datasetname.split('/')
            ds[tier].append(out.datasetname)
            n_produced += 1

text = """Dear all,

The folowing %d datasets have been produced last week:

""" % (n_produced)

for t in sorted(ds):
    text += "%d with datatier: %s \n" % (len(ds[t]), t)
    for d in sorted(ds[t]):
        text += "\t" + d + "\n"
    text += '\n'

text += "\n\n Regards,\nthe production team\n\nThis is an automated message."

print text

sendEmail(subject, text, destination=['*****@*****.**'])
#sendEmail(subject, text)
Ejemplo n.º 51
0
def checkor(url, spec=None, options=None):
    if userLock():   return
    if duplicateLock():  return


    fDB = closeoutInfo()

    UC = unifiedConfiguration()
    use_mcm = True
    up = componentInfo(mcm=use_mcm, soft=['mcm'])
    if not up.check(): return
    use_mcm = up.status['mcm']

    wfs=[]
    if options.new:
        ## get all in running and check

        ## you want to intersect with what is completed !
        if options.strict:
            completed_wfi = getWorkflows(url, status='completed')
            for wfo in session.query(Workflow).filter(Workflow.status == 'away').all():
                if wfo.name in completed_wfi:
                    wfs.append( wfo )
                else:
                    print wfo.name,"is not completed"
                    sendLog('checkor','%s is not completed'%( wfo.name))
        else:
            wfs.extend( session.query(Workflow).filter(Workflow.status == 'away').all() )

    if options.current:
        ## recheck those already there, probably to just pass them along
        wfs.extend( session.query(Workflow).filter(Workflow.status== 'assistance').all() )

    if options.old:
        ## than get all in need for assistance
        wfs.extend( session.query(Workflow).filter(Workflow.status.startswith('assistance-')).all() )


    custodials = defaultdict(list) #sites : dataset list
    transfers = defaultdict(list) #sites : dataset list
    invalidations = [] #a list of files
    SI = siteInfo()
    CI = campaignInfo()
    mcm = McMClient(dev=False)

    def get_campaign(output, wfi):
        campaign = None
        try:
            campaign = output.split('/')[2].split('-')[0]
        except:
            if 'Campaign' in wfi.request:
                campaign = wfi.request['Campaign']
        return campaign

    ## retrieve bypass and onhold configuration
    bypasses = []
    forcings = []
    overrides = getForceCompletes()
    holdings = []

    for bypassor,email in [('vlimant','*****@*****.**'),('jen_a','*****@*****.**'),('prozober','*****@*****.**')]:
        bypass_file = '/afs/cern.ch/user/%s/%s/public/ops/bypass.json'%(bypassor[0],bypassor)
        if not os.path.isfile(bypass_file):
            #sendLog('checkor','no file %s',bypass_file)
            continue
        try:
            bypasses.extend( json.loads(open(bypass_file).read()))
        except:
            sendLog('checkor',"cannot get by-passes from %s for %s"%(bypass_file ,bypassor))
            sendEmail("malformated by-pass information","%s is not json readable"%(bypass_file), destination=[email])
        
        holding_file = '/afs/cern.ch/user/%s/%s/public/ops/onhold.json'%(bypassor[0],bypassor)
        if not os.path.isfile(holding_file):
            #sendLog('checkor',"no file %s"%holding_file)
            continue
        try:
            holdings.extend( json.loads(open(holding_file).read()))
        except:
            sendLog('checkor',"cannot get holdings from %s for %s"%(holding_file, bypassor))
            sendEmail("malformated by-pass information","%s is not json readable"%(holding_file), destination=[email])

    ## once this was force-completed, you want to bypass
    for rider,email in [('vlimant','*****@*****.**'),('jen_a','*****@*****.**'),('srimanob','*****@*****.**')]:
        rider_file = '/afs/cern.ch/user/%s/%s/public/ops/forcecomplete.json'%(rider[0],rider)
        if not os.path.isfile(rider_file):
            print "no file",rider_file
            #sendLog('checkor',"no file %s"%rider_file)
            continue
        try:
            bypasses.extend( json.loads(open( rider_file ).read() ) )
        except:
            sendLog('checkor',"cannot get force complete list from %s"%rider)
            sendEmail("malformated force complet file","%s is not json readable"%rider_file, destination=[email])

    if use_mcm:
        forcings = mcm.get('/restapi/requests/forcecomplete')
        if forcings:
            sendEmail('force completing mechanism','please check what checkor is doing with %s'%( ','.join(forcings)))


    pattern_fraction_pass = UC.get('pattern_fraction_pass')

    total_running_time = 5.*60. 
    sleep_time = 1
    if len(wfs):
        sleep_time = min(max(0.5, total_running_time / len(wfs)), 10)

    random.shuffle( wfs )

    print len(wfs),"to consider, pausing for",sleep_time
    max_per_round = UC.get('max_per_round').get('checkor',None)
    if max_per_round and not spec: wfs = wfs[:max_per_round]

    for wfo in wfs:
        if spec and not (spec in wfo.name): continue
        time.sleep( sleep_time )
        
        ## get info
        wfi = workflowInfo(url, wfo.name)
        wfi.sendLog('checkor',"checking on %s %s"%( wfo.name,wfo.status))
        ## make sure the wm status is up to date.
        # and send things back/forward if necessary.
        wfo.wm_status = wfi.request['RequestStatus']
        if wfo.wm_status == 'closed-out':
            ## manually closed-out
            wfi.sendLog('checkor',"%s is already %s, setting close"%( wfo.name , wfo.wm_status))
            wfo.status = 'close'
            session.commit()
            continue

        elif wfo.wm_status in ['failed','aborted','aborted-archived','rejected','rejected-archived','aborted-completed']:
            ## went into trouble
            wfo.status = 'trouble'
            wfi.sendLog('checkor',"%s is in trouble %s"%(wfo.name, wfo.wm_status))
            session.commit()
            continue
        elif wfo.wm_status in ['assigned','acquired']:
            ## not worth checking yet
            wfi.sendLog('checkor',"%s is not running yet"%wfo.name)
            session.commit()
            continue
        
        if '-onhold' in wfo.status:
            if wfo.name in holdings and wfo.name not in bypasses:
                wfi.sendLog('checkor',"%s is on hold"%wfo.name)
                continue

        if wfo.wm_status != 'completed': #and not wfo.name in bypasses:
            ## for sure move on with closeout check if in completed
            wfi.sendLog('checkor',"no need to check on %s in status %s"%(wfo.name, wfo.wm_status))
            session.commit()
            continue

        if wfo.name in holdings and wfo.name not in bypasses:
            wfo.status = 'assistance-onhold'
            wfi.sendLog('checkor',"setting %s on hold"%wfo.name)
            session.commit()
            continue

        session.commit()        
        #sub_assistance="" # if that string is filled, there will be need for manual assistance
        existing_assistance_tags = set(wfo.status.split('-')[1:]) #[0] should be assistance
        assistance_tags = set()

        is_closing = True

        ## get it from somewhere
        bypass_checks = False

        for bypass in bypasses:
            if bypass in wfo.name:
                wfi.sendLog('checkor',"we can bypass checks on %s because of keyword %s "%( wfo.name, bypass))
                bypass_checks = True
                break
        pids = wfi.getPrepIDs()
        force_by_mcm = False
        force_by_user = False
        for force in forcings:
            if force in pids:
                wfi.sendLog('checkor',"we can bypass checks and force complete %s because of prepid %s "%( wfo.name, force))
                bypass_checks = True
                force_by_mcm = True
                break
        for user in overrides:
            for force in overrides[user]:
                if force in wfo.name:
                    wfi.sendLog('checkor',"we can bypass checks and force complete %s because of keyword %s of user %s"%( wfo.name, force, user))
                    bypass_checks = True
                    force_by_user = True
                    break
        
        tiers_with_no_check = copy.deepcopy(UC.get('tiers_with_no_check')) # dqm*
        vetoed_custodial_tier = copy.deepcopy(UC.get('tiers_with_no_custodial')) #dqm*, reco
        campaigns = {}
        expected_outputs = copy.deepcopy( wfi.request['OutputDatasets'] )
        for out in wfi.request['OutputDatasets']:
            c = get_campaign(out, wfi)
            campaigns[out] = c
            if c in CI.campaigns and 'custodial_override' in CI.campaigns[c]:
                vetoed_custodial_tier = list(set(vetoed_custodial_tier) - set(CI.campaigns[c]['custodial_override']))
                ## add those that we need to check for custodial copy
                tiers_with_no_check = list(set(tiers_with_no_check) - set(CI.campaigns[c]['custodial_override'])) ## would remove DQM from the vetoed check

        check_output_text = "Initial outputs:"+",".join(sorted(wfi.request['OutputDatasets'] ))
        wfi.request['OutputDatasets'] = [ out for out in wfi.request['OutputDatasets'] if not any([out.split('/')[-1] == veto_tier for veto_tier in tiers_with_no_check])]
        check_output_text += "\nWill check on:"+",".join(sorted(wfi.request['OutputDatasets'] ))
        check_output_text += "\ntiers out:"+",".join( sorted(tiers_with_no_check ))
        check_output_text += "\ntiers no custodial:"+",".join( sorted(vetoed_custodial_tier) )

        wfi.sendLog('checkor', check_output_text )

        ## anything running on acdc : getting the real prepid is not worth it
        familly = getWorkflowById(url, wfi.request['PrepID'], details=True)
        acdc = []
        acdc_inactive = []
        forced_already=False
        acdc_bads = []
        for member in familly:
            if member['RequestType'] != 'Resubmission': continue
            if member['RequestName'] == wfo.name: continue
            if member['RequestDate'] < wfi.request['RequestDate']: continue
            if 'OriginalRequestName' in member and member['OriginalRequestName'] != wfo.name: continue
            if member['RequestStatus'] == None: continue
            if not set(member['OutputDatasets']).issubset( set(expected_outputs)):
                if not member['RequestStatus'] in ['rejected-archived','rejected','aborted','aborted-archived']:
                    ##this is not good at all
                    wfi.sendLog('checkor','inconsistent ACDC %s'%member['RequestName'] )
                    acdc_bads.append( member['RequestName'] )
                    is_closing = False
                    assistance_tags.add('manual')
                continue
            if member['RequestStatus'] in ['running-open','running-closed','assigned','acquired']:
                print wfo.name,"still has an ACDC running",member['RequestName']
                acdc.append( member['RequestName'] )
                ## cannot be bypassed!
                is_closing = False
                assistance_tags.add('recovering')
                if (force_by_mcm or force_by_user) and not forced_already:
                    wfi.sendLog('checkor','%s is being forced completed while recovering'%wfo.name)
                    wfi.notifyRequestor("The workflow %s was force completed"% wfo.name, do_batch=False)
                    forceComplete(url, wfi)
                    forced_already=True
            else:
                acdc_inactive.append( member['RequestName'] )
                assistance_tags.add('recovered')
        if acdc_bads:
            sendEmail('inconsistent ACDC','for %s, ACDC %s is inconsistent, preventing from closing'%( wfo.name, ','.join(acdc_bads) ))

        ## completion check
        percent_completions = {}
        if not 'TotalInputEvents' in wfi.request:
            event_expected,lumi_expected = 0,0
            if not 'recovery' in wfo.status:
                #sendEmail("missing member of the request","TotalInputEvents is missing from the workload of %s"% wfo.name, destination=['*****@*****.**'])
                sendLog('checkor',"TotalInputEvents is missing from the workload of %s"% wfo.name, level='critical')
        else:
            event_expected,lumi_expected =  wfi.request['TotalInputEvents'],wfi.request['TotalInputLumis']

        if 'RequestNumEvents' in wfi.request and int(wfi.request['RequestNumEvents']):
            event_expected = int(wfi.request['RequestNumEvents'])
        elif 'Task1' in wfi.request and 'RequestNumEvents' in wfi.request['Task1']:
            event_expected = wfi.request['Task1']['RequestNumEvents']
            for i in range(1,20):
                if 'Task%d'%i in wfi.request:
                    ## this is wrong ibsolute
                    if 'FilterEfficiency' in wfi.request['Task%d'%i]:
                        event_expected *= float(wfi.request['Task%d'%i]['FilterEfficiency'])
            event_expected = int(event_expected)

        fractions_pass = {}
        over_100_pass = False
        (lhe,prim,_,_) = wfi.getIO()
        if lhe or prim: over_100_pass = False

        for output in wfi.request['OutputDatasets']:
            event_count,lumi_count = getDatasetEventsAndLumis(dataset=output)
            percent_completions[output] = 0.

            if lumi_expected:
                percent_completions[output] = lumi_count / float( lumi_expected )

            if event_expected:
                wfi.sendLog('checkor', "event completion real %s expected %s"%(event_count, event_expected ))
                percent_completions[output] = max(percent_completions[output], float(event_count) / float( event_expected ) )

            fractions_pass[output] = 0.95
            c = campaigns[output]
            if c in CI.campaigns and 'fractionpass' in CI.campaigns[c]:
                fractions_pass[output] = CI.campaigns[c]['fractionpass']
                wfi.sendLog('checkor', "overriding fraction to %s for %s by campaign requirement"%( fractions_pass[output], output))

            if options.fractionpass:
                fractions_pass[output] = options.fractionpass
                print "overriding fraction to",fractions_pass[output],"by command line for",output

            for key in pattern_fraction_pass:
                if key in output:
                    fractions_pass[output] = pattern_fraction_pass[key]
                    print "overriding fraction to",fractions_pass[output],"by dataset key",key
                    

        if not all([percent_completions[out] >= fractions_pass[out] for out in fractions_pass]):
            possible_recoveries = wfi.getRecoveryDoc()
            if possible_recoveries == []:
                wfi.sendLog('checkor','%s has missing statistics \n%s \n%s, but nothing is recoverable. passing through to annoucement'%( 
                        wfo.name, json.dumps(percent_completions, indent=2), json.dumps(fractions_pass, indent=2) ))
                sendEmail('nothing is recoverable','%s is not completed, but has nothing to be recovered, passing along ?'%wfo.name)
                bypass_checks = True
            else:
                wfi.sendLog('checkor','%s is not completed  \n%s \n%s'%( 
                        wfo.name, json.dumps(percent_completions, indent=2), json.dumps(fractions_pass, indent=2) ))

            ## hook for creating automatically ACDC ?
            if not bypass_checks:
                assistance_tags.add('recovery')
                is_closing = False

        if over_100_pass and any([percent_completions[out] >100 for out in fractions_pass]):
            print wfo.name,"is over completed"
            print json.dumps(percent_completions, indent=2)
            if not bypass_checks:
                assistance_tags.add('over100')
                is_closing = False

        ## correct lumi < 300 event per lumi
        events_per_lumi = {}
        for output in wfi.request['OutputDatasets']:
            events_per_lumi[output] = getDatasetEventsPerLumi( output )


        lumi_upper_limit = {}
        for output in wfi.request['OutputDatasets']:
            upper_limit = 301.
            campaign = campaigns[output]
            #if 'EventsPerLumi' in wfi.request and 'FilterEfficiency' in wfi.request:
            #    upper_limit = 1.5*wfi.request['EventsPerLumi']*wfi.request['FilterEfficiency']
            #    print "setting the upper limit of lumisize to",upper_limit,"by request configuration"

            if campaign in CI.campaigns and 'lumisize' in CI.campaigns[campaign]:
                upper_limit = CI.campaigns[campaign]['lumisize']
                print "overriding the upper lumi size to",upper_limit,"for",campaign

            if options.lumisize:
                upper_limit = options.lumisize
                print "overriding the upper lumi size to",upper_limit,"by command line"
                
            lumi_upper_limit[output] = upper_limit
            if wfi.request['RequestType'] in ['ReDigi']: lumi_upper_limit[output] = -1
        
        if any([ (lumi_upper_limit[out]>0 and events_per_lumi[out] >= lumi_upper_limit[out]) for out in events_per_lumi]):
            print wfo.name,"has big lumisections"
            print json.dumps(events_per_lumi, indent=2)
            ## hook for rejecting the request ?
            if not bypass_checks:
                assistance_tags.add('biglumi')
                is_closing = False 


        any_presence = {}
        for output in wfi.request['OutputDatasets']:
            any_presence[output] = getDatasetPresence(url, output, vetoes=[])

        ## custodial copy
        custodial_locations = {}
        custodial_presences = {}
        for output in wfi.request['OutputDatasets']:
            custodial_presences[output] = [s for s in any_presence[output] if 'MSS' in s]
            custodial_locations[output] = phedexClient.getCustodialSubscriptionRequestSite(output)

            if not custodial_locations[output]:
                custodial_locations[output] = []

        ## presence in phedex
        phedex_presence ={}
        for output in wfi.request['OutputDatasets']:
            phedex_presence[output] = phedexClient.getFileCountDataset(url, output )


            
        out_worth_checking = [out for out in custodial_locations.keys() if out.split('/')[-1] not in vetoed_custodial_tier]
        size_worth_checking = sum([getDatasetSize(out)/1023. for out in out_worth_checking ]) ## size in TBs of all outputs
        if not all(map( lambda sites : len(sites)!=0, [custodial_locations[out] for out in out_worth_checking])):
            print wfo.name,"has not all custodial location"
            print json.dumps(custodial_locations, indent=2)

            ##########
            ## hook for making a custodial replica ?
            custodial = None
            ## get from other outputs
            for output in out_worth_checking:
                if len(custodial_locations[output]): 
                    custodial = custodial_locations[output][0]
            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the other output custodial:",custodial,"because of limited space"
                custodial = None

            ## try to get it from campaign configuration
            if not custodial:
                for output in out_worth_checking:
                    campaign = campaigns[output]
                    if campaign in CI.campaigns and 'custodial' in CI.campaigns[campaign]:
                        custodial = CI.campaigns[campaign]['custodial']
                        print "Setting custodial to",custodial,"from campaign configuration"

            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the campaign configuration custodial:",custodial,"because of limited space"
                custodial = None

            ## get from the parent
            pick_custodial = True
            use_parent_custodial = UC.get('use_parent_custodial')
            _,prim,_,_ = wfi.getIO()
            if not custodial and prim and use_parent_custodial:
                parent_dataset = prim.pop()
                ## this is terribly dangerous to assume only 
                parents_custodial = phedexClient.getCustodialSubscriptionRequestSite( parent_dataset )
                ###parents_custodial = findCustodialLocation(url, parent_dataset)
                if not parents_custodial:
                    parents_custodial = []

                if len(parents_custodial):
                    custodial = parents_custodial[0]
                else:
                    print "the input dataset",parent_dataset,"does not have custodial in the first place. abort"
                    #sendEmail( "dataset has no custodial location", "Please take a look at %s in the logs of checkor"%parent_dataset)
                    ## does not work for RAWOADSIM
                    sendLog('checkor',"Please take a look at %s for missing custodial location"% parent_dataset)
                    ## cannot be bypassed, this is an issue to fix
                    is_closing = False
                    pick_custodial = False
                    assistance_tags.add('parentcustodial')
                                
            if custodial and float(SI.storage[custodial]) < size_worth_checking:
                print "cannot use the parent custodial:",custodial,"because of limited space"
                custodial = None

            if not custodial and pick_custodial:
                ## pick one at random
                custodial = SI.pick_SE(size=size_worth_checking)

            if not custodial:
                print "cannot find a custodial for",wfo.name
                wfi.sendLog('checkor',"cannot find a custodial for %s probably because of the total output size %d"%( wfo.name, size_worth_checking))
                #sendEmail( "cannot find a custodial","cannot find a custodial for %s probably because of the total output size %d"%( wfo.name, size_worth_checking))
                sendLog('checkor',"cannot find a custodial for %s probably because of the total output size %d"%( wfo.name, size_worth_checking), level='critical')
                
            if custodial and (is_closing or bypass_checks):
                print "picked",custodial,"for tape copy"
                ## remember how much you added this round already ; this stays locally
                SI.storage[custodial] -= size_worth_checking
                ## register the custodial request, if there are no other big issues
                for output in out_worth_checking:
                    if not len(custodial_locations[output]):
                        if phedex_presence[output]>=1:
                            custodials[custodial].append( output )
                            ## let's wait and see if that's needed 
                            assistance_tags.add('custodial')
                        else:
                            print "no file in phedex for",output," not good to add to custodial requests"
            #cannot be bypassed


            is_closing = False

        ## disk copy 
        disk_copies = {}
        for output in wfi.request['OutputDatasets']:
            disk_copies[output] = [s for s in any_presence[output] if (not 'MSS' in s) and (not 'Buffer' in s)]

        if not all(map( lambda sites : len(sites)!=0, disk_copies.values())):
            print wfo.name,"has not all output on disk"
            print json.dumps(disk_copies, indent=2)


        ## presence in dbs
        dbs_presence = {}
        dbs_invalid = {}
        for output in wfi.request['OutputDatasets']:
            dbs_presence[output] = dbs3Client.getFileCountDataset( output )
            dbs_invalid[output] = dbs3Client.getFileCountDataset( output, onlyInvalid=True)

        fraction_invalid = 0.01
        if not all([dbs_presence[out] == (dbs_invalid[out]+phedex_presence[out]) for out in wfi.request['OutputDatasets']]) and not options.ignorefiles:
            print wfo.name,"has a dbs,phedex mismatch"
            print json.dumps(dbs_presence, indent=2)
            print json.dumps(dbs_invalid, indent=2)
            print json.dumps(phedex_presence, indent=2)
            if not 'recovering' in assistance_tags:
                assistance_tags.add('filemismatch')
                #print this for show and tell if no recovery on-going
                for out in dbs_presence:
                    _,_,missing_phedex,missing_dbs  = getDatasetFiles(url, out)
                    if missing_phedex:
                        wfi.sendLog('checkor',"These %d files are missing in phedex\n%s"%(len(missing_phedex),
                                    "\n".join( missing_phedex )))
                    if missing_dbs:
                        wfi.sendLog('checkor',"These %d files are missing in dbs\n%s"%(len(missing_dbs),
                                    "\n".join( missing_dbs )))

            #if not bypass_checks:
            ## I don't think we can by pass this
            is_closing = False

        if not all([(dbs_invalid[out] <= int(fraction_invalid*dbs_presence[out])) for out in wfi.request['OutputDatasets']]) and not options.ignorefiles:
            print wfo.name,"has a dbs invalid file level too high"
            print json.dumps(dbs_presence, indent=2)
            print json.dumps(dbs_invalid, indent=2)
            print json.dumps(phedex_presence, indent=2)
            ## need to be going and taking an eye
            assistance_tags.add('invalidfiles')
            if not bypass_checks:
                #sub_assistance+="-invalidfiles"
                is_closing = False

        ## put that heavy part at the end
        ## duplication check
        duplications = {}
        if is_closing or bypass_checks:
            print "starting duplicate checker for",wfo.name
            for output in wfi.request['OutputDatasets']:
                print "\tchecking",output
                duplications[output] = True
                try:
                    duplications[output] = dbs3Client.duplicateRunLumi( output , skipInvalid=True, verbose=True)
                except:
                    try:
                        duplications[output] = dbs3Client.duplicateRunLumi( output , skipInvalid=True, verbose=True)
                    except:
                        print "was not possible to get the duplicate count for",output
                        is_closing=False

            if any(duplications.values()) and not options.ignoreduplicates:
                print wfo.name,"has duplicates"
                print json.dumps(duplications,indent=2)
                ## hook for making file invalidation ?
                ## it shouldn't be allowed to bypass it
                assistance_tags.add('duplicates')
                is_closing = False 



        ## for visualization later on
        if not wfo.name in fDB.record: 
            #print "adding",wfo.name,"to close out record"
            fDB.record[wfo.name] = {
            'datasets' :{},
            'name' : wfo.name,
            'closeOutWorkflow' : None,
            }
        fDB.record[wfo.name]['closeOutWorkflow'] = is_closing
        fDB.record[wfo.name]['priority'] = wfi.request['RequestPriority']
        fDB.record[wfo.name]['prepid'] = wfi.request['PrepID']

        for output in wfi.request['OutputDatasets']:
            if not output in fDB.record[wfo.name]['datasets']: fDB.record[wfo.name]['datasets'][output] = {}
            rec = fDB.record[wfo.name]['datasets'][output]
            rec['percentage'] = float('%.2f'%(percent_completions[output]*100))
            rec['duplicate'] = duplications[output] if output in duplications else 'N/A'
            rec['phedexReqs'] = float('%.2f'%any_presence[output][custodial_presences[output][0]][1]) if len(custodial_presences[output])!=0 else 'N/A'
            rec['closeOutDataset'] = is_closing
            rec['transPerc'] = float('%.2f'%any_presence[output][ disk_copies[output][0]][1]) if len(disk_copies[output])!=0 else 'N/A'
            rec['correctLumis'] = int(events_per_lumi[output]) if (events_per_lumi[output] > lumi_upper_limit[output]) else True
            rec['missingSubs'] = False if len(custodial_locations[output])==0 else ','.join(list(set(custodial_locations[output])))
            rec['dbsFiles'] = dbs_presence[output]
            rec['dbsInvFiles'] = dbs_invalid[output]
            rec['phedexFiles'] = phedex_presence[output]
            rec['acdc'] = "%d / %d"%(len(acdc),len(acdc+acdc_inactive))
            now = time.gmtime()
            rec['timestamp'] = time.mktime(now)
            rec['updated'] = time.asctime(now)+' (GMT)'

        ## and move on
        if is_closing:
            ## toggle status to closed-out in request manager
            print "setting",wfo.name,"closed-out"
            if not options.test:
                if wfo.wm_status in ['closed-out','announced','normal-archived']:
                    print wfo.name,"is already",wfo.wm_status,"not trying to closed-out and assuming it does"
                    res = None
                else:
                    res = reqMgrClient.closeOutWorkflowCascade(url, wfo.name)
                    print "close out answer",res

                if not res in ["None",None]:
                    print "try to get the current status again"
                    wfi_bis = workflowInfo(url, wfo.name)
                    if wfi_bis.request['RequestStatus'] == 'closed-out':
                        print "the request did toggle to closed-out"
                        res = None
                    
                if not res in ["None",None]:
                    print "retrying to closing out"
                    print res
                    res = reqMgrClient.closeOutWorkflowCascade(url, wfo.name)
                    
                
                if res in [None,"None"]:
                    wfo.status = 'close'
                    session.commit()
                    if use_mcm and force_by_mcm:
                        ## shoot large on all prepids, on closing the wf
                        for pid in pids:
                            mcm.delete('/restapi/requests/forcecomplete/%s'%pid)
                else:
                    print "could not close out",wfo.name,"will try again next time"
        else:
            ## full known list
            #recovering # has active ACDC
            ##OUT #recovered #had inactive ACDC
            #recovery #not over the pass bar
            #over100 # over 100%
            #biglumi # has a big lumiblock
            #parentcustodial # the parent does not have a valid subscription yet
            #custodial # has had the transfer made, is waiting for a valid custodial subscription to appear
            #filemismatch # there is a dbs/phedex mismatch
            #duplicates #a lumi section is there twice

            ## manual is not added yet, and should be so by recoveror
            print wfo.name,"was tagged with :",list(assistance_tags)
            if 'recovering' in assistance_tags:
                ## if active ACDC, being under threshold, filemismatch do not matter
                assistance_tags = assistance_tags - set(['recovery','filemismatch'])
            if 'recovery' in assistance_tags and 'recovered' in assistance_tags:
                ## should not set -recovery to anything that add ACDC already
                assistance_tags = assistance_tags - set(['recovery','recovered']) 
                ## straight to manual
                assistance_tags.add('manual')


            ## that means there is something that needs to be done acdc, lumi invalidation, custodial, name it
            print wfo.name,"needs assistance with",",".join( assistance_tags )
            print wfo.name,"existing conditions",",".join( existing_assistance_tags )
            
            #########################################
            ##### notification to requester #########
            go_notify=False
            if assistance_tags and not 'manual' in existing_assistance_tags and existing_assistance_tags != assistance_tags:
                go_notify=True
            

            if go_notify:
                #if wfo.name in already_notified:
                #    print "double notification"
                #    sendEmail('double notification','please take a look at %s'%(wfo.name))                    
                #else:
                #    already_notified.append( wfo.name )

                detailslink = 'https://cmsweb.cern.ch/reqmgr/view/details/%s'
                perflink = 'https://cmsweb.cern.ch/couchdb/workloadsummary/_design/WorkloadSummary/_show/histogramByWorkflow/%s'%(wfo.name)
                splitlink = 'https://cmsweb.cern.ch/reqmgr/view/splitting/%s'%(wfo.name)
                ## notify templates
                messages= {
                    'recovery': 'Samples completed with missing statistics:\n%s\n%s '%( '\n'.join(['%.2f %% complete for %s'%(percent_completions[output]*100, output) for output in wfi.request['OutputDatasets'] ] ), perflink ),
                    'biglumi': 'Samples completed with large luminosity blocks:\n%s\n%s '%('\n'.join(['%d > %d for %s'%(events_per_lumi[output], lumi_upper_limit[output], output) for output in wfi.request['OutputDatasets'] if (events_per_lumi[output] > lumi_upper_limit[output])]), splitlink),
                    'duplicates': 'Samples completed with duplicated luminosity blocks:\n%s\n'%( '\n'.join(['%s'%output for output in wfi.request['OutputDatasets'] if output in duplications and duplications[output] ] ) ),
                    'filemismatch': 'Samples completed with inconsistency in DBS/Phedex',
                    #'manual' :                     'Workflow completed and requires manual checks by Ops',
                    }
                
                content = "The request PREPID (WORKFLOW) is facing issue in production.\n"
                motive = False
                for case in messages:
                    if case in assistance_tags:
                        content+= "\n"+messages[case]+"\n"
                        motive = True
                content += "You are invited to check, while this is being taken care of by Comp-Ops.\n"
                content += "This is an automated message from Comp-Ops.\n"

                items_notified = set()
                if use_mcm and motive:
                    wfi.notifyRequestor( content , mcm = mcm)

            #########################################


            ## logic to set the status further
            if assistance_tags:
                new_status = 'assistance-'+'-'.join(sorted(assistance_tags) )
            else:
                new_status = 'assistance'

            ## case where the workflow was in manual from recoveror
            if not 'manual' in wfo.status or new_status!='assistance-recovery':
                wfo.status = new_status
                if not options.test:
                    print "setting",wfo.name,"to",wfo.status
                    session.commit()
            else:
                print "current status is",wfo.status,"not changing to anything"

    #open('already_notifified.json','w').write( json.dumps( already_notified , indent=2))

    fDB.html()
    if not spec:
        #sendEmail("fresh assistance status available","Fresh status are available at https://cmst2.web.cern.ch/cmst2/unified/assistance.html",destination=['*****@*****.**'])
        #it's a bit annoying
        pass

    ## custodial requests
    print "Custodials"
    print json.dumps(custodials, indent=2)
    for site in custodials:
        print ','.join(custodials[site]),'=>',site
        if not options.test:
            result = makeReplicaRequest(url, site, list(set(custodials[site])),"custodial copy at production close-out",custodial='y',priority='low', approve = (site in SI.sites_auto_approve) )
            print result

    print "Transfers"
    print json.dumps(transfers, indent=2)
    ## replicas requests
    for site in transfers:
        print ','.join(transfers[site]),'=>',site
        if not options.test:
            result = None
            #result = makeReplicaRequest(url, site, list(set(transfers[site])),"copy to disk at production close-out")
            print result

    print "File Invalidation"
    print invalidations
Ejemplo n.º 52
0
def assignor(url ,specific = None, talk=True, options=None):
    if userLock(): return
    if duplicateLock(): return
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    #SI = siteInfo()
    SI = global_SI()
    #NLI = newLockInfo()
    #if not NLI.free() and not options.go: return
    LI = lockInfo()
    if not LI.free() and not options.go: return

    n_assigned = 0
    n_stalled = 0

    wfos=[]
    fetch_from = []
    if specific or options.early:
        fetch_from.extend(['considered','staging'])
    if specific:
        fetch_from.extend(['considered-tried'])
    
    fetch_from.extend(['staged'])

    if options.from_status:
        fetch_from = options.from_status.split(',')
        print "Overriding to read from",fetch_from

    for status in fetch_from:
        wfos.extend(session.query(Workflow).filter(Workflow.status==status).all())

    ## in case of partial, go for fetching a list from json ?
    #if options.partial and not specific:
    #    pass

    dataset_endpoints = json.loads(open('%s/dataset_endpoints.json'%monitor_dir).read())
    aaa_mapping = json.loads(open('%s/equalizor.json'%monitor_pub_dir).read())['mapping']

    all_stuck = set()
    all_stuck.update( json.loads( open('%s/stuck_transfers.json'%monitor_dir).read() ))
    all_stuck.update( getAllStuckDataset()) 

    max_per_round = UC.get('max_per_round').get('assignor',None)
    max_cpuh_block = UC.get('max_cpuh_block')
    random.shuffle( wfos )
    for wfo in wfos:
        
        if options.limit and (n_stalled+n_assigned)>options.limit:
            break

        if max_per_round and (n_stalled+n_assigned)>max_per_round:
            break

        if specific:
            if not any(map(lambda sp: sp in wfo.name,specific.split(','))): continue
            #if not specific in wfo.name: continue
        print "\n\n"
        wfh = workflowInfo( url, wfo.name)

        if options.priority and int(wfh.request['RequestPriority']) < options.priority:
            continue

        options_text=""
        if options.early: options_text+=", early option is ON"
        if options.partial: 
            options_text+=", partial option is ON"
            options_text+=", good fraction is %.2f"%options.good_enough
        


        wfh.sendLog('assignor',"%s to be assigned%s"%(wfo.name, options_text))

        ## the site whitelist takes into account siteInfo, campaignInfo, memory and cores
        (lheinput,primary,parent,secondary, sites_allowed) = wfh.getSiteWhiteList()
        output_tiers = list(set([o.split('/')[-1] for o in wfh.request['OutputDatasets']]))
        
        
        is_stuck = (all_stuck & primary)
        if is_stuck:
            wfh.sendLog('assignor',"%s are stuck input"%(','.join( is_stuck)))

        ## check if by configuration we gave it a GO
        no_go = False
        if not wfh.go(log=True) and not options.go:
            no_go = True

        allowed_secondary = {}
        assign_parameters = {}
        check_secondary = False
        for campaign in wfh.getCampaigns():
            if campaign in CI.campaigns:
                assign_parameters.update( CI.campaigns[campaign] )

            if campaign in CI.campaigns and 'secondaries' in CI.campaigns[campaign]:
                if CI.campaigns[campaign]['secondaries']:
                    allowed_secondary.update( CI.campaigns[campaign]['secondaries'] )
                    check_secondary = True
            if campaign in CI.campaigns and 'banned_tier' in CI.campaigns[campaign]:
                banned_tier = list(set(CI.campaigns[campaign]['banned_tier']) & set(output_tiers))
                if banned_tier:
                    no_go=True
                    wfh.sendLog('assignor','These data tiers %s are not allowed'%(','.join( banned_tier)))
                    sendLog('assignor','These data tiers %s are not allowed'%(','.join( banned_tier)), level='critical')

        if secondary and check_secondary:
            if (set(secondary)&set(allowed_secondary.keys())!=set(secondary)):
                wfh.sendLog('assignor','%s is not an allowed secondary'%(', '.join(set(secondary)-set(allowed_secondary.keys()))))
                sendLog('assignor','%s is not an allowed secondary'%(', '.join(set(secondary)-set(allowed_secondary.keys()))), level='critical')
                if not options.go:
                    no_go = True
            ## then get whether there is something more to be done by secondary
            for sec in secondary:
                if sec in allowed_secondary:# and 'parameters' in allowed_secondary[sec]:
                    assign_parameters.update( allowed_secondary[sec] )

        if no_go:
            n_stalled+=1 
            continue


            
        ## check on current status for by-passed assignment
        if wfh.request['RequestStatus'] !='assignment-approved':
            if not options.test:
                wfh.sendLog('assignor',"setting %s away and skipping"%wfo.name)
                ## the module picking up from away will do what is necessary of it
                wfo.wm_status = wfh.request['RequestStatus']
                wfo.status = 'away'
                session.commit()
                continue
            else:
                print wfo.name,wfh.request['RequestStatus']

        ## retrieve from the schema, dbs and reqMgr what should be the next version
        version=wfh.getNextVersion()
        if not version:
            if options and options.ProcessingVersion:
                version = options.ProcessingVersion
            else:
                wfh.sendLog('assignor',"cannot decide on version number")
                n_stalled+=1
                wfo.status = 'trouble'
                session.commit()
                continue


        original_sites_allowed = copy.deepcopy( sites_allowed )
        wfh.sendLog('assignor',"Site white list %s"%sorted(sites_allowed))
        override_sec_location = CI.get(wfh.request['Campaign'], 'SecondaryLocation', [])

        blocks = []
        if 'BlockWhitelist' in wfh.request:
            blocks = wfh.request['BlockWhitelist']
        if 'RunWhitelist' in wfh.request and wfh.request['RunWhitelist']:
            ## augment with run white list
            for dataset in primary:
                blocks = list(set( blocks + getDatasetBlocks( dataset, runs=wfh.request['RunWhitelist'] ) ))

        wfh.sendLog('assignor',"Allowed %s"%sorted(sites_allowed))
        secondary_locations=None

        primary_aaa = options.primary_aaa
        secondary_aaa = options.secondary_aaa
        do_partial = False #options.good_enough if options.partial else 0

        if 'Campaign' in wfh.request and wfh.request['Campaign'] in CI.campaigns:
            assign_parameters.update( CI.campaigns[wfh.request['Campaign']] )

        if 'primary_AAA' in assign_parameters:
            primary_aaa = primary_aaa or assign_parameters['primary_AAA']
        if 'secondary_AAA' in assign_parameters:
            secondary_aaa = secondary_aaa or assign_parameters['secondary_AAA']
        if 'partial_copy' in assign_parameters:
            ## can this only work if there is a stuck input ? maybe not
            ## this is a number. 0 means no
            print "Could do partial disk copy assignment"
            if is_stuck or options.partial:
                do_partial = assign_parameters['partial_copy']
                wfh.sendLog('assignor',"Overiding partial copy assignment to %.2f fraction"% do_partial)
                #sendEmail('stuck input to assignment','%s is stuck for assigning %s and going fractional'%(','.join( is_stuck), wfo.name))
            
        do_partial = options.good_enough if options.partial else do_partial


        for sec in list(secondary):
            if override_sec_location: 
                print "We don't care where the secondary is"
                print "Cannot pass for now"
                #sendEmail("tempting to pass sec location check","but we cannot yet IMO")
                #pass
            if secondary_aaa:
                #just continue without checking
                continue

            presence = getDatasetPresence( url, sec )
            print sec
            print json.dumps(presence, indent=2)
            one_secondary_locations = [site for (site,(there,frac)) in presence.items() if frac>98.]
            #one_secondary_locations = [site for (site,(there,frac)) in presence.items() if there]
            if secondary_locations==None:
                secondary_locations = one_secondary_locations
            else:
                secondary_locations = list(set(secondary_locations) & set(one_secondary_locations))
            ## reduce the site white list to site with secondary only
            #sites_allowed = [site for site in sites_allowed if any([osite.startswith(site) for osite in one_secondary_locations])]
            sites_allowed = [site for site in sites_allowed if SI.CE_to_SE(site) in one_secondary_locations]
            
        wfh.sendLog('assignor',"From secondary requirement, now Allowed%s"%sorted(sites_allowed))

        initial_sites_allowed = copy.deepcopy( sites_allowed ) ## keep track of this, after secondary input location restriction : that's how you want to operate it

        sites_all_data = copy.deepcopy( sites_allowed )
        sites_with_data = copy.deepcopy( sites_allowed )
        sites_with_any_data = copy.deepcopy( sites_allowed )
        primary_locations = None
        available_fractions = {}
        set_lfn = '/store/mc' ## by default
        endpoints = set()
        for prim in list(primary):
            if prim in dataset_endpoints:
                print "endpoints from stagor",dataset_endpoints[prim]
                endpoints.update( dataset_endpoints[prim] )
            set_lfn = getLFNbase( prim )
            presence = getDatasetPresence( url, prim , only_blocks=blocks)
            if talk:
                print prim
                print json.dumps(presence, indent=2)
            available_fractions[prim] =  getDatasetBlocksFraction(url, prim, sites = [SI.CE_to_SE(site) for site in sites_allowed] , only_blocks = blocks)
            #sites_all_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,(there,frac)) in presence.items() if there]])]
            #sites_with_data = [site for site in sites_with_data if any([osite.startswith(site) for osite in [psite for (psite,frac) in presence.items() if frac[1]>90.]])]
            sites_all_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,(there,frac)) in presence.items() if there]]
            sites_with_data = [site for site in sites_with_data if SI.CE_to_SE(site) in [psite for (psite,frac) in presence.items() if frac[1]>90.]]
            sites_with_any_data = [site for site in sites_with_any_data if SI.CE_to_SE(site) in presence.keys()]
            wfh.sendLog('assignor',"Holding the data but not allowed %s"%sorted(list(set([se_site for se_site in presence.keys() if not SI.SE_to_CE(se_site) in sites_allowed]))))
            if primary_locations==None:
                primary_locations = presence.keys()
            else:
                primary_locations = list(set(primary_locations) & set(presence.keys() ))

        sites_with_data = list(set(sites_with_data))
        sites_with_any_data = list(set(sites_with_any_data))

        opportunistic_sites=[]
        down_time = False
        ## opportunistic running where any piece of data is available
        if secondary_locations or primary_locations:
            ## intersection of both any pieces of the primary and good IO
            #opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations) & set(SI.sites_with_goodIO)) - set(sites_allowed))]
            if secondary_locations and primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list((set(secondary_locations) & set(primary_locations)) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            elif primary_locations:
                opportunistic_sites = [SI.SE_to_CE(site) for site in list(set(primary_locations) - set([SI.CE_to_SE(site) for site in sites_allowed]))]
            else:
                opportunistic_sites = []
            wfh.sendLog('assignor',"We could be running in addition at %s"% sorted(opportunistic_sites))
            if any([osite in SI.sites_not_ready for osite in opportunistic_sites]):
                wfh.sendLog('assignor',"One of the usable site is in downtime %s"%([osite for osite in opportunistic_sites if osite in SI.sites_not_ready]))
                down_time = True
                ## should this be send back to considered ?
                

        ## should be 2 but for the time-being let's lower it to get things going
        copies_wanted,cpuh = wfh.getNCopies()
        wfh.sendLog('assignor',"we need %s CPUh"%cpuh)
        if cpuh>max_cpuh_block and not options.go:
            #sendEmail('large workflow','that wf %s has a large number of CPUh %s, not assigning, please check the logs'%(wfo.name, cpuh))#,destination=['*****@*****.**'])
            sendLog('assignor','%s requires a large numbr of CPUh %s , not assigning, please check with requester'%( wfo.name, cpuh), level='critical')
            wfh.sendLog('assignor',"Requiring a large number of CPUh %s, not assigning"%cpuh)
            continue

        if 'Campaign' in wfh.request and wfh.request['Campaign'] in CI.campaigns and 'maxcopies' in CI.campaigns[wfh.request['Campaign']]:
            copies_needed_from_campaign = CI.campaigns[wfh.request['Campaign']]['maxcopies']
            copies_wanted = min(copies_needed_from_campaign, copies_wanted)
        
        if not options.early:
            less_copies_than_requested = UC.get("less_copies_than_requested")
            copies_wanted = max(1,copies_wanted-less_copies_than_requested) # take one out for the efficiency
        else:
            ## find out whether there is a site in the whitelist, that is lacking jobs and reduce to 1 copy needed to get things going
            pass

        wfh.sendLog('assignor',"needed availability fraction %s"% copies_wanted)

        ## should also check on number of sources, if large enough, we should be able to overflow most, efficiently

        ## default back to white list to original white list with any data
        wfh.sendLog('assignor',"Allowed sites :%s"% sorted(sites_allowed))

        if primary_aaa:
            ## remove the sites not reachable localy if not in having the data
            if not sites_all_data:
                wfh.sendLog('assignor',"Overiding the primary on AAA setting to Off")
                primary_aaa=False
            else:
                aaa_grid = set(sites_all_data)
                for site in list(aaa_grid):
                    aaa_grid.update( aaa_mapping.get(site,[]) )
                sites_allowed = list(set(initial_sites_allowed) & aaa_grid)
                wfh.sendLog('assignor',"Selected to read primary through xrootd %s"%sorted(sites_allowed))
                
        if not primary_aaa:
            sites_allowed = sites_with_any_data
            wfh.sendLog('assignor',"Selected for any data %s"%sorted(sites_allowed))

        ### check on endpoints for on-going transfers
        if do_partial:
            if endpoints:
                end_sites = [SI.SE_to_CE(s) for s in endpoints]
                sites_allowed = list(set(sites_allowed + end_sites))
                if down_time and not any(osite in SI.sites_not_ready for osite in end_sites):
                    print "Flip the status of downtime, since our destinations are good"
                    down_time = False
                print "with added endpoints",sorted(end_sites)
            else:
                print "Cannot do partial assignment without knowin the endpoints"
                n_stalled+=1
                continue
            
            
        #if not len(sites_allowed):
        #    if not options.early:
        #        wfh.sendLog('assignor',"cannot be assign with no matched sites")
        #        sendLog('assignor','%s has no whitelist'% wfo.name, level='critical')
        #    n_stalled+=1
        #    continue


        low_pressure = SI.sites_low_pressure(0.4)
        ## if any of the site allowed is low pressure : reduce to 1 copy so that it gets started
        allowed_and_low = sorted(set(low_pressure) & set(sites_allowed))
        if allowed_and_low:
            wfh.sendLog('assignor',"The workflow can run at %s under low pressure currently"%( ','.join( allowed_and_low )))
            copies_wanted = max(1., copies_wanted-1.)


        if available_fractions and not all([available>=copies_wanted for available in available_fractions.values()]):
            not_even_once = not all([available>=1. for available in available_fractions.values()])
            above_good = all([available >= do_partial for available in available_fractions.values()])
            wfh.sendLog('assignor',"The input dataset is not available %s times, only %s"%( copies_wanted, available_fractions.values()))
            if down_time and not options.go and not options.early:
                wfo.status = 'considered'
                session.commit()
                wfh.sendLog('assignor',"sending back to considered because of site downtime, instead of waiting")
                #sendEmail( "cannot be assigned due to downtime","%s is not sufficiently available, due to down time of a site in the whitelist. check the assignor logs. sending back to considered."% wfo.name)
                sendLog('assignor','%s is not sufficiently available, due to down time of a site in the whitelist. sending back to considered.'%( wfo.name ), level='delay')
                n_stalled+=1
                continue
                #pass

            print json.dumps(available_fractions)
            if (options.go and not_even_once) or not options.go:
                known = []
                try:
                    known = json.loads(open('cannot_assign.json').read())
                except:
                    pass
                if not wfo.name in known and not options.limit and not options.go and not options.early and not (do_partial and above_good):
                    wfh.sendLog('assignor',"cannot be assigned, %s is not sufficiently available.\n %s"%(wfo.name,json.dumps(available_fractions)))
                    #sendEmail( "cannot be assigned","%s is not sufficiently available.\n %s"%(wfo.name,json.dumps(available_fractions)))
                    known.append( wfo.name )
                    open('cannot_assign.json','w').write(json.dumps( known, indent=2))
                
                if options.early:
                    if wfo.status == 'considered':
                        wfh.sendLog('assignor',"setting considered-tried")
                        wfo.status = 'considered-tried'
                        session.commit()
                    else:
                        print "tried but status is",wfo.status
                if do_partial and above_good:
                    print "Will move on with partial locations"
                else:
                    n_stalled+=1
                    continue

        if not len(sites_allowed):
            if not options.early:
                wfh.sendLog('assignor',"cannot be assign with no matched sites")
                sendLog('assignor','%s has no whitelist'% wfo.name, level='critical')
            n_stalled+=1
            continue


        t1_only = [ce for ce in sites_allowed if ce.startswith('T1')]
        if t1_only:
            # try to pick from T1 only first
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in t1_only])]
        else:
            # then pick any otherwise
            sites_out = [SI.pick_dSE([SI.CE_to_SE(ce) for ce in sites_allowed])]
            
            
        wfh.sendLog('assignor',"Placing the output on %s"%sites_out)
        parameters={
            'SiteWhitelist' : sites_allowed,
            'NonCustodialSites' : sites_out,
            'AutoApproveSubscriptionSites' : list(set(sites_out)),
            'AcquisitionEra' : wfh.acquisitionEra(),
            'ProcessingString' : wfh.processingString(),
            'MergedLFNBase' : set_lfn,
            'ProcessingVersion' : version,
            }

        if primary_aaa:
            parameters['TrustSitelists'] = True
            wfh.sendLog('assignor',"Reading primary through xrootd at %s"%sorted(sites_allowed))            

        if secondary_aaa:
            parameters['TrustPUSitelists'] = True
            wfh.sendLog('assignor',"Reading secondary through xrootd at %s"%sorted(sites_allowed))            


        if 'parameters' in assign_parameters:
            parameters.update( assign_parameters['parameters'] )

        ## plain assignment here
        team='production'
        if os.getenv('UNIFIED_TEAM'): team = os.getenv('UNIFIED_TEAM')
        if options and options.team:
            team = options.team

        if False and 'T2_CH_CERN' in parameters['SiteWhitelist']:
            ## add some check on 
            ### the amount pending to HLT
            ### the size of the request
            ### the priority of the request (maybe not if we decide to overflow during runs)
            parameters['SiteWhitelist'] = ['T2_CH_CERN_HLT']
            team = 'hlt'
            ## reduce the splitting by factor of 4, regardless of type of splitting
            sendEmail("sending work to HLT","%s was assigned to HLT"%wfo.name)
            

        ##parse options entered in command line if any
        if options:
            for key in reqMgrClient.assignWorkflow.keys:
                v=getattr(options,key)
                if v!=None:
                    if type(v)==str and ',' in v: 
                        parameters[key] = filter(None,v.split(','))
                    else: 
                        parameters[key] = v

        if lheinput:
            ## throttle reading LHE article 
            wfh.sendLog('assignor', 'Setting the number of events per job to 500k max')
            parameters['EventsPerJob'] = 500000

        ## pick up campaign specific assignment parameters
        #parameters.update( CI.parameters(wfh.request['Campaign']) )
        parameters.update( assign_parameters.get('parameters',{}) )

        if not options.test:
            parameters['execute'] = True

        split_check = wfh.checkWorkflowSplitting()
        if split_check!=True:
            parameters.update( split_check )
            if 'NoGo' in split_check.values():
                wfh.sendLog('assignor', "Failing splitting check")
                sendLog('assignor','the workflow %s is failing the splitting check. Verify in the logs'% wfo.name, level='critical')
                n_stalled+=1
                continue

            if 'EventBased' in split_check.values():
                wfh.sendLog('assignor', "Falling back to event splitting.")
                #sendEmail("Fallback to EventBased","the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting"%wfo.name)
                sendLog('assignor','the workflow %s is too heavy to be processed as it is. Fallback to EventBased splitting ?'%wfo.name, level='critical')
                ## we have a problem here, that EventBased should never be used as a backup
                if not options.go:  
                    n_stalled+=1
                    continue
                continue ## skip all together
            elif 'EventsPerJob' in split_check.values():
                wfh.sendLog('assignor', "Modifying the number of events per job")
                #sendEmail("Modifying the job per events","the workflow %s is too heavy in number of jobs explosion"%wfo.name)
                sendLog('assignor',"the workflow %s is too heavy in number of jobs explosion"%wfo.name, level='critical')
            elif 'EventsPerLumi' in split_check.values():
                wfh.sendLog('assignor', "Modifying the number of events per lumi to be able to process this")

        # Handle run-dependent MC
        pstring = wfh.processingString()
        if 'PU_RD' in pstring:
            numEvents = wfh.getRequestNumEvents()
            eventsPerLumi = [getDatasetEventsPerLumi(prim) for prim in primary]
            eventsPerLumi = sum(eventsPerLumi)/float(len(eventsPerLumi))
            reqJobs = 500
            if 'PU_RD2' in pstring:
                reqJobs = 2000
                eventsPerJob = int(numEvents/(reqJobs*1.4))
                lumisPerJob = int(eventsPerJob/eventsPerLumi)
                if lumisPerJob==0:
                    #sendEmail("issue with event splitting for run-dependent MC","%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    sendLog('assignor', "%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob), level='critical')
                    wfh.sendLog('assignor', "%s needs to be split by event with %s per job"%(wfo.name, eventsPerJob))
                    parameters['EventsPerJob'] = eventsPerJob
                else:
                    spl = wfh.getSplittings()[0]
                    eventsPerJobEstimated = spl['events_per_job'] if 'events_per_job' in spl else None
                    eventsPerJobEstimated = spl['avg_events_per_job'] if 'avg_events_per_job' in spl else None
                    if eventsPerJobEstimated and eventsPerJobEstimated > eventsPerJob:
                        #sendEmail("setting lumi splitting for run-dependent MC","%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        sendLog('assignor',"%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob), level='critical')
                        wfh.sendLog('assignor',"%s was assigned with %s lumis/job"%( wfo.name, lumisPerJob))
                        parameters['LumisPerJob'] = lumisPerJob
                    else:
                        #sendEmail("leaving splitting untouched for PU_RD*","please check on "+wfo.name)
                        sendLog('assignor',"leaving splitting untouched for %s, please check on %s"%( pstring, wfo.name), level='critical')
                        wfh.sendLog('assignor',"leaving splitting untouched for PU_RD*, please check.")


        
        
        result = reqMgrClient.assignWorkflow(url, wfo.name, team, parameters)


        # set status
        if not options.test:
            if result:
                wfo.status = 'away'
                session.commit()
                n_assigned+=1
                wfh.sendLog('assignor',"Properly assigned\n%s"%(json.dumps( parameters, indent=2)))
                try:
                    ## refetch information and lock output
                    new_wfi = workflowInfo( url, wfo.name)
                    (_,prim,_,sec) = new_wfi.getIO()
                    for secure in list(prim)+list(sec)+new_wfi.request['OutputDatasets']:
                        ## lock all outputs flat
                        #NLI.lock( secure )
                        LI.lock( secure, reason = 'assigning')
                    #for site in [SI.CE_to_SE(site) for site in sites_allowed]:
                    #    for output in new_wfi.request['OutputDatasets']:
                    #        LI.lock( output, site, 'dataset in production')
                    #    for primary in prim:
                    #        LI.lock( primary, site, 'dataset used in input')
                    #    for secondary in sec:
                    #        LI.lock( secondary, site, 'required for mixing' )

                except Exception as e:
                    print "fail in locking output"
                    
                    print str(e)
                    sendEmail("failed locking of output",str(e))


            else:
                wfh.sendLog('assignor',"Failed to assign. Please check the logs")
                print "ERROR could not assign",wfo.name
        else:
            pass
    print "Assignment summary:"
    sendLog('assignor',"Assigned %d Stalled %s"%(n_assigned, n_stalled))
Ejemplo n.º 53
0
def closor(url, specific=None):
    if not componentInfo().check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    #LI = lockInfo()

    all_late_files = []
    check_fullcopy_to_announce = UC.get('check_fullcopy_to_announce')
    ## manually closed-out workflows should get to close with checkor
    if specific:
        wfs = session.query(Workflow).filter(
            Workflow.name.contains(specific)).all()
    else:
        wfs = session.query(Workflow).filter(Workflow.status == 'close').all()

    held = set()

    for wfo in wfs:

        if specific and not specific in wfo.name: continue

        ## what is the expected #lumis
        wfi = workflowInfo(url, wfo.name)
        wfo.wm_status = wfi.request['RequestStatus']

        if wfi.request['RequestStatus'] in ['announced', 'normal-archived']:
            ## manually announced ??
            wfo.status = 'done'
            wfo.wm_status = wfi.request['RequestStatus']
            wfi.sendLog(
                'closor',
                '%s is announced already : %s' % (wfo.name, wfo.wm_status))
        session.commit()

        expected_lumis = 1
        if not 'TotalInputLumis' in wfi.request:
            print wfo.name, "has not been assigned yet, or the database is corrupted"
        else:
            expected_lumis = wfi.request['TotalInputLumis']

        ## what are the outputs
        outputs = wfi.request['OutputDatasets']
        ## check whether the number of lumis is as expected for each
        all_OK = defaultdict(lambda: False)
        #print outputs
        if len(outputs):
            print wfo.name, wfi.request['RequestStatus']
        for out in outputs:
            event_count, lumi_count = getDatasetEventsAndLumis(dataset=out)
            odb = session.query(Output).filter(
                Output.datasetname == out).first()
            if not odb:
                print "adding an output object", out
                odb = Output(datasetname=out)
                odb.workflow = wfo
                session.add(odb)
            odb.nlumis = lumi_count
            odb.nevents = event_count
            odb.workfow_id = wfo.id
            if odb.expectedlumis < expected_lumis:
                odb.expectedlumis = expected_lumis
            else:
                expected_lumis = odb.expectedlumis
            odb.date = time.mktime(time.gmtime())
            session.commit()

            wfi.sendLog(
                'closor', "\t%60s %d/%d = %3.2f%%" %
                (out, lumi_count, expected_lumis,
                 lumi_count / float(expected_lumis) * 100.))
            #print wfo.fraction_for_closing, lumi_count, expected_lumis
            #fraction = wfo.fraction_for_closing
            #fraction = 0.0
            #all_OK.append((float(lumi_count) > float(expected_lumis*fraction)))
            all_OK[out] = True

        ## check for at least one full copy prior to moving on
        in_full = {}
        for out in outputs:
            in_full[out] = []
            presence = getDatasetPresence(url, out)
            where = [site for site, info in presence.items() if info[0]]
            if where:
                all_OK[out] = True
                print out, "is in full at", ",".join(where)
                in_full[out] = copy.deepcopy(where)
            else:

                going_to = wfi.request['NonCustodialSites'] + wfi.request[
                    'CustodialSites']
                wfi.sendLog(
                    'closor', "%s is not in full anywhere. send to %s" %
                    (out, ",".join(sorted(going_to))))
                at_destination = dict([(k, v) for (k, v) in presence.items()
                                       if k in going_to])
                else_where = dict([(k, v) for (k, v) in presence.items()
                                   if not k in going_to])
                print json.dumps(at_destination)
                print json.dumps(else_where, indent=2)
                ## do the full stuck transfer study, missing files and shit !
                for there in going_to:
                    late_info = findLateFiles(url, out, going_to=there)
                    for l in late_info:
                        l.update({"workflow": wfo.name, "dataset": out})
                    all_late_files.extend(late_info)
                if check_fullcopy_to_announce:
                    ## only set this false if the check is relevant
                    all_OK[out] = False

        ## verify if we have to do harvesting

        (OK, requests) = spawn_harvesting(url, wfi, in_full)
        all_OK.update(OK)

        ## only that status can let me go into announced
        if all(all_OK.values()) and wfi.request['RequestStatus'] in [
                'closed-out'
        ]:
            print wfo.name, "to be announced"
            results = []  #'dummy']
            if not results:
                for out in outputs:
                    if all_OK[out]:
                        results.append(setDatasetStatus(out, 'VALID'))
                        tier = out.split('/')[-1]
                        campaign = None
                        try:
                            campaign = out.split('/')[2].split('-')[0]
                        except:
                            if 'Campaign' in wfi.request and wfi.request[
                                    'Campaign']:
                                campaign = wfi.request['Campaign']
                        to_DDM = False
                        ## campaign override
                        if campaign and campaign in CI.campaigns and 'toDDM' in CI.campaigns[
                                campaign] and tier in CI.campaigns[campaign][
                                    'toDDM']:
                            to_DDM = True
                        ## by typical enabling
                        if tier in UC.get("tiers_to_DDM"):
                            to_DDM = True
                        ## check for unitarity
                        if not tier in UC.get("tiers_no_DDM") + UC.get(
                                "tiers_to_DDM"):
                            print "tier", tier, "neither TO or NO DDM for", out
                            results.append('Not recognitized tier %s' % tier)
                            sendEmail(
                                "failed DDM injection",
                                "could not recognize %s for injecting in DDM" %
                                out)
                            continue

                        n_copies = 2
                        destinations = []
                        if to_DDM and campaign and campaign in CI.campaigns and 'DDMcopies' in CI.campaigns[
                                campaign]:
                            ddm_instructions = CI.campaigns[campaign][
                                'DDMcopies']
                            if type(ddm_instructions) == int:
                                n_copies = CI.campaigns[campaign]['DDMcopies']
                            elif type(ddm_instructions) == dict:
                                ## a more fancy configuration
                                for ddmtier, indication in ddm_instructions.items(
                                ):
                                    if ddmtier == tier or ddmtier in [
                                            '*', 'all'
                                    ]:
                                        ## this is for us
                                        if 'N' in indication:
                                            n_copies = indication['N']
                                        if 'host' in indication:
                                            destinations = indication['host']

                        destination_spec = ""
                        if destinations:
                            destination_spec = "--destination=" + ",".join(
                                destinations)
                        ## inject to DDM when necessary
                        if to_DDM:
                            #print "Sending",out," to DDM"
                            p = os.popen(
                                'python assignDatasetToSite.py --nCopies=%d --dataset=%s %s --exec'
                                % (n_copies, out, destination_spec))
                            print p.read()
                            status = p.close()
                            if status != None:
                                print "Failed DDM, retrying a second time"
                                p = os.popen(
                                    'python assignDatasetToSite.py --nCopies=%d --dataset=%s %s --exec'
                                    % (n_copies, out, destination_spec))
                                print p.read()
                                status = p.close()
                                if status != None:
                                    sendEmail(
                                        "failed DDM injection",
                                        "could not add " + out +
                                        " to DDM pool. check closor logs.")
                            results.append(status)
                            if status == None:
                                wfi.sendLog(
                                    'closor',
                                    '%s is send to AnalysisOps DDM pool in %s copies %s'
                                    % (n_copies, out, destination_spec))

                    else:
                        print wfo.name, "no stats for announcing", out
                        results.append('No Stats')

                if all(
                        map(lambda result: result in ['None', None, True],
                            results)):
                    ## only announce if all previous are fine
                    res = reqMgrClient.announceWorkflowCascade(url, wfo.name)
                    if not res in ['None', None]:
                        ## check the status again, it might well have toggled
                        wl_bis = workflowInfo(url, wfo.name)
                        wfo.wm_status = wl_bis.request['RequestStatus']
                        session.commit()
                        if wl_bis.request['RequestStatus'] in [
                                'announced', 'normal-archived'
                        ]:
                            res = None
                        else:
                            ## retry ?
                            res = reqMgrClient.announceWorkflowCascade(
                                url, wfo.name)

                    results.append(res)

            #print results
            if all(map(lambda result: result in ['None', None, True],
                       results)):
                wfo.status = 'done'
                session.commit()
                wfi.sendLog('closor', "workflow is announced")
            else:
                print "ERROR with ", wfo.name, "to be announced", json.dumps(
                    results)

        else:
            print wfo.name, "not good for announcing:", wfi.request[
                'RequestStatus']
            wfi.sendLog('closor', "cannot be announced")
            held.add(wfo.name)

    days_late = 0.
    retries_late = 10

    really_late_files = [
        info for info in all_late_files if info['retries'] >= retries_late
    ]
    really_late_files = [
        info for info in really_late_files
        if info['delay'] / (60 * 60 * 24.) >= days_late
    ]

    if really_late_files:
        subject = 'These %d files are lagging for %d days and %d retries announcing dataset \n%s' % (
            len(really_late_files), days_late, retries_late,
            json.dumps(really_late_files, indent=2))
        sendEmail('waiting for files to announce', subject)
        sendLog('closor', subject)
        print subject
        open('%s/stuck_files.json' % monitor_dir,
             'w').write(json.dumps(really_late_files, indent=2))

    if held:
        sendEmail(
            "held from announcing",
            "the workflows below are held up, please check the logs https://cmst2.web.cern.ch/cmst2/unified/logs/closor/last.log \n%s"
            % ("\n".join(held)))
Ejemplo n.º 54
0
def closor(url, specific=None, options=None):
    if userLock(): return
    mlock = moduleLock()
    if mlock() and not options.manual: return
    up = componentInfo(soft=['mcm', 'wtc'])
    if not up.check(): return

    UC = unifiedConfiguration()
    CI = campaignInfo()
    BI = batchInfo()
    CloseI = closeoutInfo()

    all_late_files = []

    jump_the_line = options.announce if options else False
    if jump_the_line:
        print "announce option is on. Checking on things on-going ready to be announced"
        wfs = session.query(Workflow).filter(
            Workflow.status.contains('announce')).filter(
                sqlalchemy.not_(Workflow.status.contains('announced'))).all()
    else:
        print "regular option. Checking on things done and to be announced"
        wfs = session.query(Workflow).filter(Workflow.status == 'close').all()

    if specific:
        wfs = [wfo for wfo in wfs if specific in wfo.name]
    wfs_n = [w.name for w in wfs]

    print "unique names?"
    print len(set(wfs_n)) == len(wfs_n)

    held = set()

    print len(wfs), "closing"
    random.shuffle(wfs)
    max_per_round = UC.get('max_per_round').get('closor', None)
    if options.limit: max_per_round = options.limit

    if max_per_round:
        ## order them by priority
        all_closedout = sorted(getWorkflows(url, 'closed-out', details=True),
                               key=lambda r: r['RequestPriority'])
        all_closedout = [r['RequestName'] for r in all_closedout]

        def rank(wfn):
            return all_closedout.index(wfn) if wfn in all_closedout else 0

        wfs = sorted(wfs, key=lambda wfo: rank(wfo.name), reverse=True)
        wfs = wfs[:max_per_round]

    batch_go = {}
    batch_warnings = defaultdict(set)
    batch_extreme_warnings = defaultdict(set)
    batch_goodness = UC.get("batch_goodness")

    closers = []

    print len(wfs), "closing"
    th_start = time.mktime(time.gmtime())

    for iwfo, wfo in enumerate(wfs):
        if specific and not specific in wfo.name: continue
        if not options.manual and (
                'cmsunified_task_HIG-RunIIFall17wmLHEGS-05036__v1_T_200712_005621_4159'
                .lower() in (wfo.name).lower() or
                'pdmvserv_task_HIG-RunIISummer16NanoAODv7-03979__v1_T_200915_013748_1986'
                .lower() in (wfo.name).lower()):
            continue
        closers.append(
            CloseBuster(
                wfo=wfo,
                url=url,
                CI=CI,
                UC=UC,
                jump_the_line=jump_the_line,
                batch_goodness=batch_goodness,
                batch_go=batch_go,
                #stats = stats,
                batch_warnings=batch_warnings,
                batch_extreme_warnings=batch_extreme_warnings,
                all_late_files=all_late_files,
                held=held,
            ))

    run_threads = ThreadHandler(threads=closers,
                                n_threads=options.threads,
                                sleepy=10,
                                timeout=None,
                                verbose=True,
                                label='closor')

    run_threads.start()

    ## waiting on all to complete
    while run_threads.is_alive():
        #print "Waiting on closing threads",time.asctime(time.gmtime())
        time.sleep(5)

    JC = JIRAClient() if up.status.get('jira', False) else None
    print len(
        run_threads.threads), "finished thread to gather information from"
    failed_threads = 0
    for to in run_threads.threads:
        if to.failed:
            failed_threads += 1
            continue
        if to.outs:
            for outO in to.outs:
                out = outO.datasetname
                odb = session.query(Output).filter(
                    Output.datasetname == out).first()
                if not odb:
                    print "adding an output object", out
                    session.add(outO)
                else:
                    odb.date = outO.date

        if to.to_status:
            to.wfo.status = to.to_status
            if JC and to.to_status == "done" and to.wfi:
                jiras = JC.find({"prepid": to.wfi.request['PrepID']})
                for jira in jiras:
                    JC.close(jira.key)

        if to.to_wm_status:
            to.wfo.wm_status = to.to_wm_status
        if to.closing:
            CloseI.pop(to.wfo.name)

        session.commit()

    th_stop = time.mktime(time.gmtime())

    if wfs:
        time_spend_per_workflow = (th_stop - th_start) / float(len(wfs))
        print "Average time spend per workflow is", time_spend_per_workflow

    if float(failed_threads / run_threads.n_threads) > 0:
        sendLog('checkor',
                '%d/%d threads have failed, better check this out' %
                (failed_threads, run_threads.n_threads),
                level='critical')
        sendEmail(
            'checkor', '%d/%d threads have failed, better check this out' %
            (failed_threads, run_threads.n_threads))

    days_late = 0.
    retries_late = 10

    really_late_files = [
        info for info in all_late_files if info['retries'] >= retries_late
    ]
    really_late_files = [
        info for info in really_late_files
        if info['delay'] / (60 * 60 * 24.) >= days_late
    ]

    if really_late_files:
        subject = 'These %d files are lagging for %d days and %d retries announcing dataset \n%s' % (
            len(really_late_files), days_late, retries_late,
            json.dumps(really_late_files, indent=2))
        #sendEmail('waiting for files to announce', subject)
        sendLog('closor', subject, level='warning')
        sendLog('closor', subject)
        print subject
        open('%s/stuck_files.json' % monitor_dir,
             'w').write(json.dumps(really_late_files, indent=2))

    if held:
        sendLog('closor',
                "the workflows below are held up \n%s" %
                ("\n".join(sorted(held))),
                level='critical')

    for bname, go in batch_go.items():
        if go:
            subject = "Release Validation Samples Batch %s" % bname
            issues = ""
            #if batch_warnings[ bname ]:
            #    issues="The following datasets have outstanding completion (<%d%%) issues:\n\n"% batch_goodness
            #    issues+="\n".join( sorted( batch_warnings[ bname ] ))
            #    issues+="\n\n"
            if batch_extreme_warnings[bname]:
                subject = "Low Statistics for %s" % bname
                issues = "The following datasets have outstanding completion (<50%%) issues:\n\n"
                issues += "\n".join(sorted(batch_extreme_warnings[bname]))
                issues += "\n\n"
            elif batch_warnings[bname]:
                issues = "The following datasets have outstanding completion (<%d%%) issues:\n\n" % batch_goodness
                issues += "\n".join(sorted(batch_warnings[bname]))
                issues += "\n\n"
            text = ""
            text += "Dear all,\n\n"
            text += "A batch of release validation workflows has finished.\n\n"
            text += "Batch ID:\n\n"
            text += "%s\n\n" % (bname)
            text += "Detail of the workflows\n\n"
            text += "https://dmytro.web.cern.ch/dmytro/cmsprodmon/requests.php?campaign=%s\n\n" % (
                bname)
            text += "%s\n\n" % (issues)
            text += "This is an automated message.\n\n"
            text += ""
            to = ['*****@*****.**']
            sendEmail(subject, text, destination=to)
            ## just announced ; take it out now.
            BI.pop(bname)
            deleteCampaignConfig(bname)

    if os.path.isfile('.closor_stop'):
        print "The loop on workflows was shortened"
        sendEmail('closor',
                  'Closor loop was shortened artificially using .closor_stop')
        os.system('rm -f .closor_stop')
Ejemplo n.º 55
0
def completor(url, specific):
    use_mcm = True
    up = componentInfo(mcm=use_mcm, soft=['mcm'])
    if not up.check(): return
    use_mcm = up.status['mcm']
    if use_mcm:
        mcm = McMClient(dev=False)

    CI = campaignInfo()
    SI = siteInfo()
    UC = unifiedConfiguration()

    wfs = []
    wfs.extend( session.query(Workflow).filter(Workflow.status == 'away').all() )
    wfs.extend( session.query(Workflow).filter(Workflow.status.startswith('assistance')).all() )

    ## just take it in random order so that not always the same is seen
    random.shuffle( wfs )

    ## by workflow a list of fraction / timestamps
    completions = json.loads( open('%s/completions.json'%monitor_dir).read())
    
    good_fractions = {}
    timeout = {}
    for c in CI.campaigns:
        if 'force-complete' in CI.campaigns[c]:
            good_fractions[c] = CI.campaigns[c]['force-complete']
        if 'force-timeout' in CI.campaigns[c]:
            timeout[c] = CI.campaigns[c]['force-timeout']

    long_lasting = {}

    overrides = getForceCompletes()
    if use_mcm:    
        ## add all workflow that mcm wants to get force completed
        mcm_force = mcm.get('/restapi/requests/forcecomplete')
        ## assuming this will be a list of actual prepids
        overrides['mcm'] = mcm_force

    print "can force complete on"
    print json.dumps( good_fractions ,indent=2)
    print json.dumps( overrides, indent=2)
    max_force = UC.get("max_force_complete")
    
    #wfs_no_location_in_GQ = set()
    #block_locations = defaultdict(lambda : defaultdict(list))
    #wfs_no_location_in_GQ = defaultdict(list)

    set_force_complete = set()

    for wfo in wfs:
        if specific and not specific in wfo.name: continue

        print "looking at",wfo.name
        ## get all of the same
        wfi = workflowInfo(url, wfo.name)
        pids = wfi.getPrepIDs()
        skip=False
        if not any([c in wfo.name for c in good_fractions]): skip=True
        for user,spec in overrides.items():

            if wfi.request['RequestStatus']!='force-complete':
                if any(s in wfo.name for s in spec) or (wfo.name in spec) or any(pid in spec for pid in pids) or any(s in pids for s in spec):
                    sendEmail('force-complete requested','%s is asking for %s to be force complete'%(user,wfo.name))
                    wfi = workflowInfo(url, wfo.name)
                    forceComplete(url , wfi )
                    skip=True
                    wfi.notifyRequestor("The workflow %s was force completed by request of %s"%(wfo.name,user), do_batch=False)
                    wfi.sendLog('completor','%s is asking for %s to be force complete'%(user,wfo.name))
                    if user == 'mcm' and use_mcm:
                        for pid in wfi.getPrepIDs():
                            mcm.delete('/restapi/requests/forcecomplete/%s'%pid)
                    #sendEmail('completor test','not force completing automatically, you have to go back to it')
                    #skip=False
                    break
    
        if wfo.status.startswith('assistance'): skip = True

        if skip: 
            continue

        priority = wfi.request['RequestPriority']

        if not 'Campaign' in wfi.request: continue

        if not wfi.request['RequestStatus'] in ['acquired','running-open','running-closed']: continue

        c = wfi.request['Campaign']
        if not c in good_fractions: continue
        good_fraction = good_fractions[c]
        ignore_fraction = 2.
        
        lumi_expected = None
        event_expected = None
        if not 'TotalInputEvents' in wfi.request: 
            if 'RequestNumEvents' in wfi.request:
                event_expected = wfi.request['RequestNumEvents']
            else:
                print "truncated, cannot do anything"
                continue
        else:
            lumi_expected = wfi.request['TotalInputLumis']
            event_expected = wfi.request['TotalInputEvents']

        now = time.mktime(time.gmtime()) / (60*60*24.)

        running_log = filter(lambda change : change["Status"] in ["running-open","running-closed"],wfi.request['RequestTransition'])
        if not running_log:
            print "\tHas no running log"
            # cannot figure out when the thing started running
            continue
        then = running_log[-1]['UpdateTime'] / (60.*60.*24.)
        delay = now - then ## in days

        (w,d) = divmod(delay, 7 )
        print "\t"*int(w)+"Running since",delay,"[days] priority=",priority

        monitor_delay = 7
        allowed_delay = 14
        if c in timeout:
            allowed_delay = timeout[c]
            
        monitor_delay = min(monitor_delay, allowed_delay)
        ### just skip if too early
        if delay <= monitor_delay: continue

        long_lasting[wfo.name] = { "delay" : delay }

        percent_completions = {}
        for output in wfi.request['OutputDatasets']:
            if "/DQM" in output: continue ## that does not count
            if not output in completions: completions[output] = { 'injected' : None, 'checkpoints' : [], 'workflow' : wfo.name}
            ## get completion fraction
            event_count,lumi_count = getDatasetEventsAndLumis(dataset=output)
            lumi_completion=0.
            event_completion=0.
            if lumi_expected:
                lumi_completion = lumi_count / float( lumi_expected )
            if event_expected:
                event_completion = event_count / float( event_expected )

            #take the less optimistic
            percent_completions[output] = min( lumi_completion, event_completion )
            completions[output]['checkpoints'].append( (now, event_completion ) )

        if all([percent_completions[out] >= good_fraction for out in percent_completions]):
            wfi.sendLog('completor', "all is above %s \n%s"%( good_fraction, 
                                                              json.dumps( percent_completions, indent=2 )
                                                              ))
        else:
            long_lasting[wfo.name].update({
                    'completion': sum(percent_completions.values()) / len(percent_completions),
                    'completions' : percent_completions
                    })
            
            ## do something about the agents this workflow is in
            long_lasting[wfo.name]['agents'] = wfi.getAgents()
            wfi.sendLog('completor', "%s not over bound %s\n%s"%(percent_completions.values(), good_fraction,
                                                                 json.dumps( long_lasting[wfo.name]['agents'], indent=2) ))
            continue

        if all([percent_completions[out] >= ignore_fraction for out in percent_completions]):
            print "all is done, just wait a bit"
            continue

        for output in  percent_completions:
            completions[output]['injected'] = then

        #further check on delays
        cpuh = wfi.getComputingTime(unit='d')

        ran_at = wfi.request['SiteWhitelist']
                        
        wfi.sendLog('completor',"Required %s, time spend %s"%( cpuh, delay))
                    
        ##### WILL FORCE COMPLETE BELOW
        # only really force complete after n days

        if delay <= allowed_delay: continue
        ## find ACDCs that might be running
        if max_force>0:
            forceComplete(url, wfi )
            set_force_complete.add( wfo.name )
            print "going for force-complete of",wfo.name
            wfi.sendLog('completor','going for force completing')
            wfi.notifyRequestor("The workflow %s was force completed for running too long"% wfo.name)
            max_force -=1
        else:
            wfi.sendLog('completor',"too many completion this round, cannot force complete")

        ## do it once only for testing
        #break
    
    if set_force_complete:
        sendLog('completor','The followings were set force-complete \n%s'%('\n'.join(set_force_complete)))
        #sendEmail('set force-complete', 'The followings were set force-complete \n%s'%('\n'.join(set_force_complete)))
    
    open('%s/completions.json'%monitor_dir,'w').write( json.dumps( completions , indent=2))
    text="These have been running for long"
    
    open('%s/longlasting.json'%monitor_dir,'w').write( json.dumps( long_lasting, indent=2 ))

    for wf,info in sorted(long_lasting.items(), key=lambda tp:tp[1]['delay'], reverse=True):
        delay = info['delay']
        text += "\n %s : %s days"% (wf, delay)
        if 'completion' in info:
            text += " %d%%"%( info['completion']*100 )

    #if wfs_no_location_in_GQ:
    #    sendEmail('workflow with no location in GQ',"there won't be able to run anytime soon\n%s"%( '\n'.join(wfs_no_location_in_GQ)))

    #sendEmail("long lasting workflow",text)
    ## you can check the log
    print text
Ejemplo n.º 56
0
def recoveror(url,specific,options=None):
    if userLock('recoveror'): return

    up = componentInfo()
    CI = campaignInfo()

    UC = unifiedConfiguration()

    def make_int_keys( d ):
        for code in d:
            d[int(code)] = d.pop(code)

    error_codes_to_recover = UC.get('error_codes_to_recover')
    error_codes_to_block = UC.get('error_codes_to_block')
    error_codes_to_notify = UC.get('error_codes_to_notify')
    make_int_keys( error_codes_to_recover )
    make_int_keys( error_codes_to_block )
    make_int_keys( error_codes_to_notify )

    wfs = session.query(Workflow).filter(Workflow.status == 'assistance-recovery').all()
    if specific:
        wfs.extend( session.query(Workflow).filter(Workflow.status == 'assistance-manual').all() )

    for wfo in wfs:
        if specific and not specific in wfo.name:continue

        if not specific and 'manual' in wfo.status: continue
        
        wfi = workflowInfo(url, wfo.name, deprecated=True) ## need deprecated info for mergedlfnbase

        ## 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

        all_errors = None
        try:
            wfi.getSummary()
            all_errors = wfi.summary['errors']
        except:
            pass

        print '-'*100        
        print "Looking at",wfo.name,"for recovery options"
        
        if not len(all_errors): 
            print "\tno error for",wfo.name

        task_to_recover = defaultdict(list)
        message_to_ops = ""
        message_to_user = ""

        recover=True
        if 'LheInputFilese' in wfi.request and wfi.request['LheInputFiles']:
            ## we do not try to recover pLHE
            recover = False

        if 'Campaign' in wfi.request:
            c = wfi.request['Campaign']
            if c in CI.campaigns and 'recover' in CI.campaigns[c]:
                recover=CI.campaigns[c]['recover']

        for task,errors in all_errors.items():
            print "\tTask",task
            ## collect all error codes and #jobs regardless of step at which it occured
            all_codes = []
            for name, codes in errors.items():
                if type(codes)==int: continue
                all_codes.extend( [(int(code),info['jobs'],name,list(set([e['type'] for e in info['errors']])),list(set([e['details'] for e in info['errors']])) ) for code,info in codes.items()] )

            all_codes.sort(key=lambda i:i[1], reverse=True)
            sum_failed = sum([l[1] for l in all_codes])

            for errorCode,njobs,name,types,details in all_codes:
                rate = 100*njobs/float(sum_failed)
                #print ("\t\t %10d (%6s%%) failures with error code %10d (%"+str(max_legend)+"s) at stage %s")%(njobs, "%4.2f"%rate, errorCode, legend, name)
                print ("\t\t %10d (%6s%%) failures with error code %10d (%30s) at stage %s")%(njobs, "%4.2f"%rate, errorCode, ','.join(types), name)
                    
                added_in_recover=False

                #if options.go:
                # force the recovery of any task with error ?

                if errorCode in error_codes_to_recover:
                    ## the error code is registered
                    for case in error_codes_to_recover[errorCode]:
                        match = case['details']
                        matched= (match==None)
                        if not matched:
                            matched=False
                            for detail in details:
                                if match in detail:
                                    print "[recover] Could find keyword",match,"in"
                                    print 50*"#"
                                    print detail
                                    print 50*"#"
                                    matched = True
                                    break
                        if matched and rate > case['rate']:
                            print "\t\t => we should be able to recover that", case['legend']
                            task_to_recover[task].append( (code,case) )
                            added_in_recover=True
                            message_to_user = ""
                        else:
                            print "\t\t recoverable but not frequent enough, needs",case['rate']

                if errorCode in error_codes_to_block:
                    for case in error_codes_to_block[errorCode]:
                        match = case['details']
                        matched= (match==None)
                        if not matched:
                            matched=False
                            for detail in details:
                                if match in detail:
                                    print "[block] Could find keyword",match,"in"
                                    print 50*"#"
                                    print detail
                                    print 50*"#"
                                    matched = True
                                    break
                        if matched and rate > case['rate']:
                            print "\t\t => that error means no ACDC on that workflow", case['legend']
                            if not options.go:
                                message_to_ops += "%s has an error %s blocking an ACDC.\n%s\n "%( wfo.name, errorCode, '#'*50 )
                                recover = False
                                added_in_recover=False

                            
                
                if errorCode in error_codes_to_notify and not added_in_recover:
                    print "\t\t => we should notify people on this"
                    message_to_user += "%s has an error %s in processing.\n%s\n" %( wfo.name, errorCode, '#'*50 )



        if message_to_user:
            print wfo.name,"to be notified to user(DUMMY)",message_to_user

        if message_to_ops:
            sendEmail( "notification in recoveror" , message_to_ops, destination=['*****@*****.**','*****@*****.**'])


        if task_to_recover and recover:
            print "Initiating recovery"
            print ', '.join(task_to_recover.keys()),"to be recovered"

            recovering=set()
            for task in task_to_recover:
                print "Will be making a recovery workflow for",task

                ## from here you can fetch known solutions, to known error codes
                actions = list(set([case['solution'] for code,case in task_to_recover[task]  ]))
                acdc = singleRecovery(url, task, wfi.request , actions, do = options.do)

                if not acdc:
                    if options.do:
                        if recovering:
                            print wfo.name,"has been partially ACDCed. Needs manual attention"
                            sendEmail( "failed ACDC partial recovery","%s has had %s/%s recoveries %s only"%( wfo.name, len(recovering), len(task_to_recover), list(recovering)), destination=['*****@*****.**','*****@*****.**'])
                            continue
                        else:
                            print wfo.name,"failed recovery once"
                            break
                    else:
                        print "no action to take further"
                        sendEmail("an ACDC that can be done automatically","please check https://cmst2.web.cern.ch/cmst2/unified/logs/recoveror/last.log for details", destination=['*****@*****.**','*****@*****.**'])
                        continue
                        
                
                ## and assign it ?
                team = wfi.request['Teams'][0]
                parameters={
                    'SiteWhitelist' : wfi.request['SiteWhitelist'],
                    'AcquisitionEra' : wfi.acquisitionEra(),
                    'ProcessingString' :  wfi.processingString(),
                    'MergedLFNBase' : wfi.deprecated_request['MergedLFNBase'],
                    'ProcessingVersion' : wfi.request['ProcessingVersion'],
                    }
                
                if options.ass:
                    print "really doing the assignment of the ACDC",acdc
                    parameters['execute']=True
                    sendEmail("an ACDC was done and WAS assigned", "%s  was assigned, please check https://cmst2.web.cern.ch/cmst2/unified/logs/recoveror/last.log for details"%( acdc ), destination=['*****@*****.**','*****@*****.**'])
                else:
                    print "no assignment done with this ACDC",acdc
                    sendEmail("an ACDC was done and need to be assigned", "%s needs to be assigned, please check https://cmst2.web.cern.ch/cmst2/unified/logs/recoveror/last.log for details"%( acdc ), destination=['*****@*****.**','*****@*****.**'])

                result = reqMgrClient.assignWorkflow(url, acdc, team, parameters)
                recovering.add( acdc )

            if recovering:
                #if all went well, set the status to -recovering 
                current = wfo.status 
                if options.ass:
                    current = current.replace('recovery','recovering')
                else:
                    current = 'assistance-manual'
                print wfo.name,"setting the status to",current
                print ', '.join( recovering )
                wfo.status = current
                session.commit()
        else:
            ## this workflow should be handled manually at that point
            print wfo.name,"needs manual intervention"
            wfo.status = 'assistance-manual'
            session.commit()
Ejemplo n.º 57
0
def stagor(url,specific =None, options=None):
    
    if not componentInfo().check(): return
    SI = siteInfo()
    CI = campaignInfo()
    UC = unifiedConfiguration()

    done_by_wf_id = {}
    done_by_input = {}
    completion_by_input = {}
    good_enough = 100.0
    
    lost_blocks = json.loads(open('%s/lost_blocks_datasets.json'%monitor_dir).read())
    lost_files = json.loads(open('%s/lost_files_datasets.json'%monitor_dir).read())
    known_lost_blocks = {}
    known_lost_files = {}
    for dataset in set(lost_blocks.keys()+lost_files.keys()):
        b,f = findLostBlocksFiles(url, dataset)
        if dataset in lost_blocks and not b:
            print dataset,"has no really lost blocks"
        else:
            known_lost_blocks[dataset] = [i['name'] for i in b]

        if dataset in lost_files and not f: 
            print dataset,"has no really lost files"
        else:
            known_lost_files[dataset] = [i['name'] for i in f]

    try:
        cached_transfer_statuses = json.loads(open('cached_transfer_statuses.json').read())
    except:
        print "inexisting transfer statuses. starting fresh"
        cached_transfer_statuses = {}

    transfer_statuses = {}

    ## pop all that are now in negative values
    for phedexid in cached_transfer_statuses.keys():
        transfers = session.query(Transfer).filter(Transfer.phedexid==int(phedexid)).all()
        if not transfers:
            print phedexid,"does not look relevant to be in cache anymore. poping"
            print cached_transfer_statuses.pop( phedexid )


            
    ## collect all datasets that are needed for wf in staging, correcting the status of those that are not really in staging
    wfois = []
    needs = defaultdict(list)
    for wfo in session.query(Workflow).filter(Workflow.status == 'staging').all():
        wfi = workflowInfo(url, wfo.name)
        if wfi.request['RequestStatus'] in ['running-open','running-closed','completed','assigned','acquired']:
            wfi.sendLog('stagor', "is in status %s"%wfi.request['RequestStatus'])
            wfi.status='away'
            session.commit()
            continue
        if not wfi.request['RequestStatus'] in ['assignment-approved']:
            ## should be setting 'away' too
            print wfo.name,"is",wfi.request['RequestStatus']
            sendEmail("wrong status in staging. debug","%s is in %s, should set away."%(wfo.name,wfi.request['RequestStatus']))
        wfois.append( (wfo,wfi) )            
        _,primaries,_,secondaries = wfi.getIO()
        for dataset in list(primaries)+list(secondaries):
            needs[wfo.name].append( dataset)
            done_by_input[dataset] = {}
            completion_by_input[dataset] = {}
            wfi.sendLog('stagor', '%s needs %s'%( wfo.name, dataset))

    open('%s/dataset_requirements.json'%monitor_dir,'w').write( json.dumps( needs, indent=2))

    dataset_endpoints = defaultdict(set)
    endpoint_in_downtime = defaultdict(set)
    #endpoint_completed = defaultdict(set)
    endpoint_incompleted = defaultdict(set)
    #endpoint = defaultdict(set)
    send_back_to_considered = set()
    ## phedexid are set negative when not relevant anymore
    # probably there is a db schema that would allow much faster and simpler query
    for transfer in session.query(Transfer).filter(Transfer.phedexid>0).all():
        if specific  and str(transfer.phedexid)!=str(specific): continue

        skip=True
        for wfid in transfer.workflows_id:
            tr_wf = session.query(Workflow).get(wfid)
            if tr_wf: 
                if tr_wf.status == 'staging':
                    sendLog('stagor',"\t%s is staging for %s"%(transfer.phedexid, tr_wf.name))
                    skip=False

        if skip: 
            sendLog('stagor',"setting %s to negative value"%transfer.phedexid)
            transfer.phedexid = -transfer.phedexid
            session.commit()
            continue
        if transfer.phedexid<0: continue

        ## check the status of transfers
        checks = checkTransferApproval(url,  transfer.phedexid)
        approved = all(checks.values())
        if not approved:
            sendLog('stagor', "%s is not yet approved"%transfer.phedexid)
            approveSubscription(url, transfer.phedexid)
            continue

        ## check on transfer completion
        if str(transfer.phedexid) in cached_transfer_statuses:
            ### use a cache for transfer that already looked done
            sendLog('stagor',"read %s from cache"%transfer.phedexid)
            checks = cached_transfer_statuses[str(transfer.phedexid)]
        else:
            checks = checkTransferStatus(url, transfer.phedexid, nocollapse=True)
        ## just write this out
        transfer_statuses[str(transfer.phedexid)] = copy.deepcopy(checks)

        if not specific:
            for dsname in checks:
                if not dsname in done_by_input: done_by_input[dsname]={}
                if not dsname in completion_by_input: completion_by_input[dsname] = {}
                done_by_input[dsname][transfer.phedexid]=all(map(lambda i:i>=good_enough, checks[dsname].values()))
                completion_by_input[dsname][transfer.phedexid]=checks[dsname].values()
        if checks:
            sendLog('stagor',"Checks for %s are %s"%( transfer.phedexid, [node.values() for node in checks.values()]))
            done = all(map(lambda i:i>=good_enough,list(itertools.chain.from_iterable([node.values() for node in checks.values()]))))
        else:
            ## it is empty, is that a sign that all is done and away ?
            print "ERROR with the scubscriptions API of ",transfer.phedexid
            print "Most likely something else is overiding the transfer request. Need to work on finding the replacement automatically, if the replacement exists"
            done = False

        ## the thing above is NOT giving the right number
        #done = False

        for wfid in transfer.workflows_id:
            tr_wf = session.query(Workflow).get(wfid)
            if tr_wf:# and tr_wf.status == 'staging':  
                if not tr_wf.id in done_by_wf_id: done_by_wf_id[tr_wf.id]={}
                done_by_wf_id[tr_wf.id][transfer.phedexid]=done
            ## for those that are in staging, and the destination site is in drain
            #if not done and tr_wf.status == 'staging':
                

        for ds in checks:
            for s,v in checks[ds].items():
                dataset_endpoints[ds].add( s )

        if done:
            ## transfer.status = 'done'
            sendLog('stagor',"%s is done"%transfer.phedexid)
            cached_transfer_statuses[str(transfer.phedexid)] = copy.deepcopy(checks)
        else:
            sendLog('stagor',"%s is not finished %s"%(transfer.phedexid, pprint.pformat( checks )))
            pprint.pprint( checks )
            ## check if the destination is in down-time
            for ds in checks:
                sites_incomplete = [SI.SE_to_CE(s) for s,v in checks[ds].items() if v<good_enough]
                sites_incomplete_down = [s for s in sites_incomplete if not s in SI.sites_ready]
                if sites_incomplete_down:
                    sendLog('stagor',"%s are in downtime, while waiting for %s to get there"%( ",".join(sites_incomplete_down), ds))
                #sites_complete = [SI.SE_to_CE(s) for s,v in checks[ds].items() if v>=good_enough]
                #endpoint[ds].update( sites_complete )
                #endpoint[ds].update( sites_incomplete )
                #endpoint_completed[ds].update( sites_complete )
                endpoint_incompleted[ds].update( sites_incomplete )
                endpoint_in_downtime[ds].update( sites_incomplete_down )
            


    print "End point in down time"
    for k in endpoint_in_downtime: endpoint_in_downtime[k] = list(endpoint_in_downtime[k])
    for k in dataset_endpoints: dataset_endpoints[k] = list(dataset_endpoints[k])
    print json.dumps( endpoint_in_downtime , indent=2)


    open('cached_transfer_statuses.json','w').write( json.dumps( cached_transfer_statuses, indent=2))
    open('%s/transfer_statuses.json'%monitor_dir,'w').write( json.dumps( transfer_statuses, indent=2))
    open('%s/dataset_endpoints.json'%monitor_dir,'w').write( json.dumps(dataset_endpoints, indent=2))

    already_stuck = json.loads( open('%s/stuck_transfers.json'%monitor_dir).read() )
    missing_in_action = defaultdict(list)


    print "-"*10,"Checking on workflows in staging","-"*10
    #forget_about = ['/MinBias_TuneCUETP8M1_13TeV-pythia8/RunIISummer15GS-MCRUN2_71_V1-v2/GEN-SIM']
    #for what in forget_about:
    #    if not done_by_input[what]:
    #        done_by_input[what] = {'fake':True}

    ## come back to workflows and check if they can go
    available_cache = defaultdict(lambda : defaultdict(float))
    presence_cache = defaultdict(dict)
    for wfo,wfi in wfois:
        print "#"*30
        ## the site white list takes site, campaign, memory and core information
        (_,primaries,_,secondaries,sites_allowed) = wfi.getSiteWhiteList(verbose=False)
        se_allowed = [SI.CE_to_SE(site) for site in sites_allowed]
        se_allowed.sort()
        se_allowed_key = ','.join(se_allowed)
        readys={}
        for need in list(primaries)+list(secondaries):
            if not need in done_by_input:
                wfi.sendLog('stagor',"missing transfer report for %s"%need)
                readys[need] = False      
                ## should warn someone about this !!!
                ## it cannot happen, by construction
                sendEmail('missing transfer report','%s does not have a transfer report'%(need))
                continue

            if not done_by_input[need] and need in list(secondaries):
                wfi.sendLog('stagor',"assuming it is OK for secondary %s to have no attached transfers"% need)
                readys[need] = True
                done_by_input[need] = { "fake" : True }
                continue

            if len(done_by_input[need]) and all(done_by_input[need].values()):
                wfi.sendLog('stagor',"%s is ready"%need)
                print json.dumps( done_by_input[need] , indent=2)
                readys[need] = True
            else:
                wfi.sendLog('stagor',"%s is not ready"%need)
                print json.dumps( done_by_input[need] , indent=2)
                readys[need] = False

        if readys and all(readys.values()):
            if wfo.status == 'staging':
                wfi.sendLog('stagor',"all needs are fullfilled, setting staged")
                wfo.status = 'staged'
                session.commit()
            else:
                wfi.sendLog('stagor',"all needs are fullfilled, already")
                print json.dumps( readys, indent=2 )
        else:
            wfi.sendLog('stagor',"missing requirements")
            copies_needed,_ = wfi.getNCopies()
            jump_ahead = False
            re_transfer = False
            ## there is missing input let's do something more elaborated
            for need in list(primaries):#+list(secondaries):
                if endpoint_in_downtime[need] == endpoint_incompleted[need]:
                    #print need,"is going to an end point in downtime"
                    wfi.sendLog('stagor',"%s has only incomplete endpoint in downtime"%need)
                    re_transfer=True

                if not se_allowed_key in available_cache[need]:
                    available_cache[need][se_allowed_key]  = getDatasetBlocksFraction( url , need, sites=se_allowed )
                    if available_cache[need][se_allowed_key] >= copies_needed:
                        wfi.sendLog('stagor',"assuming it is OK to move on like this already for %s"%need)
                        jump_ahead = True

            ## compute a time since staging to filter jump starting ?                    
            # check whether the inputs is already in the stuck list ...
            for need in list(primaries)+list(secondaries):
                if need in already_stuck: 
                    wfi.sendLog('stagor',"%s is stuck, so try to jump ahead"%need)
                    jump_ahead = True
                    
            if jump_ahead or re_transfer:
                details_text = "checking on availability for %s to jump ahead"%wfo.name
                details_text += '\n%s wants %s copies'%(wfo.name,copies_needed)
                copies_needed = max(1,copies_needed-1)
                details_text += '\nlowering by one unit to %s'%copies_needed
                wfi.sendLog('stagor', details_text)
                all_check = True
                
                prim_where = set()
                for need in list(primaries):
                    if not se_allowed_key in presence_cache[need]:
                        presence_cache[need][se_allowed_key] = getDatasetPresence( url, need , within_sites=se_allowed)
                    presence = presence_cache[need][se_allowed_key]
                    prim_where.update( presence.keys() )
                    available = available_cache[need][se_allowed_key]
                    this_check = (available >= copies_needed)
                    wfi.sendLog('stagor', "%s is available %s times %s"%( need, available, this_check))
                    all_check &= this_check
                    if not all_check: break

                for need in list(secondaries):
                    ## I do not want to check on the secon
                    this_check = all(done_by_input[need].values())
                    wfi.sendLog('stagor',"%s is all transfered %s"%(need, json.dumps(done_by_input[need], indent=2)))
                    all_check&= this_check
                    #if not se_allowed_key in presence_cache[need]:
                    #    presence_cache[need][se_allowed_key] = getDatasetPresence( url, need , within_sites=se_allowed)

                    ## restrict to where the primary is
                    #presence = dict([(k,v) for (k,v) in presence_cache[need][se_allowed_key].items() if k in prim_where])
                    #this_check = all([there for (there,frac) in presence.values()])
                    #print need,"is present at all sites:",this_check
                    #all_check&= this_check

                if all_check:    
                    wfi.sendLog('stagor',"needs are sufficiently fullfilled, setting staged")
                    wfo.status = 'staged'
                    session.commit()
                else:
                    print wfo.name,"has to wait a bit more"
                    wfi.sendLog('stagor',"needs to wait a bit more")
            else:
                wfi.sendLog('stagor',"not checking availability")
            if re_transfer:
                wfi.sendLog('stagor',"Sending back to considered because of endpoint in downtime")
                if wfo.status == 'staging':
                    wfo.status = 'considered'
                    session.commit()
                    send_back_to_considered.add( wfo.name )



    if send_back_to_considered:
        #sendEmail("transfer to endpoint in downtime","sending back to considered the following workflows \n%s"%('\n'.join( send_back_to_considered)))
        sendLog('stagor', "sending back to considered the following workflows \n%s"%('\n'.join( send_back_to_considered)), level='critical')

    print "-"*10,"Checking on non-available datasets","-"*10    
    ## now check on those that are not fully available
    
    for dsname in available_cache.keys():
        ## squash the se_allowed_key key
        available_cache[dsname] = min( available_cache[dsname].values() )
            
    for dsname,available in available_cache.items():
        using_its = getWorkflowByInput(url, dsname)
        #print using_its
        using_wfos = []
        for using_it in using_its:
            wf = session.query(Workflow).filter(Workflow.name == using_it).first()
            if wf:
                using_wfos.append( wf )

        if not len(done_by_input[dsname]):
            print "For dataset",dsname,"there are no transfer report. That's an issue."
            for wf in using_wfos:
                if wf.status == 'staging':
                    if UC.get("stagor_sends_back"):
                        print "sending",wf.name,"back to considered"
                        wf.status = 'considered'
                        session.commit()
                        #sendEmail( "send back to considered","%s was send back and might be trouble"% wf.name)
                        sendLog('stagor', "%s was send back and might be trouble"% wf.name, level='critical')
                    else:
                        print "would send",wf.name,"back to considered"
                        #sendEmail( "subscription lagging behind","susbscriptions to get %s running are not appearing in phedex. I would have send it back to considered but that's not good."% wf.name)
                        sendLog('stagor', "susbscriptions to get %s running are not appearing in phedex. I would have send it back to considered but that's not good."% wf.name, level='critical')
            continue

        ## not compatible with checking on secondary availability
        #if all([wf.status != 'staging' for wf in using_wfos]):
        #    ## means despite all checks that input is not needed
        #    continue

        if available < 1.:
            print "incomplete",dsname
            ## there is a problem in the method below that it does not account for files stuck in T1*Buffer only
            lost_blocks,lost_files = findLostBlocksFiles( url, dsname )
            lost_block_names = [item['name'] for item in lost_blocks]
            lost_file_names = [item['name'] for item in lost_files]

            if lost_blocks:
                #print json.dumps( lost , indent=2 )
                ## estimate for how much !
                fraction_loss,_,n_missing = getDatasetBlockFraction(dsname, lost_block_names)
                print "We have lost",len(lost_block_names),"blocks",lost_block_names,"for %f%%"%(100.*fraction_loss)
                if fraction_loss > 0.05: ## 95% completion mark
                    #sendEmail('we have lost too many blocks','%s is missing %d blocks, for %d events, %f %% loss'%(dsname, len(lost_block_names), n_missing, fraction_loss))
                    sendLog('stagor', '%s is missing %d blocks, for %d events, %3.2f %% loss'%(dsname, len(lost_block_names), n_missing, 100*fraction_loss), level='warning')
                    ## the workflow should be rejected !
                    for wf in using_wfos: 
                        if wf.status == 'staging':
                            print wf.name,"is doomed. setting to trouble"
                            wf.status = 'trouble'
                            session.commit()
                            #sendEmail('doomed workflow','%s has too much loss on the input dataset %s. please check on stagor logs https://cmst2.web.cern.ch/cmst2/unified/logs/stagor/last.log'%(wf.name, dsname))
                            sendLog('stagor', '%s has too much loss on the input dataset %s. Missing  %d blocks, for %d events, %3.2f %% loss'%(wf.name, dsname, len(lost_block_names), n_missing, 100*fraction_loss), level='critical')
                else:
                    ## probably enough to make a ggus and remove
                    if not dsname in known_lost_blocks:
                        #sendEmail('we have lost a few blocks', '%s is missing %d blocks, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_block_names), n_missing, fraction_loss, '\n'.join( lost_block_names ) ))
                        sendLog('stagor', '%s is missing %d blocks, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_block_names), n_missing, fraction_loss, '\n'.join( lost_block_names ) ), level='critical')
                        known_lost_blocks[dsname] = [i['name'] for i in lost_blocks]
                                  
            if lost_files:
                fraction_loss,_,n_missing = getDatasetFileFraction(dsname, lost_file_names)
                print "We have lost",len(lost_file_names),"files",lost_file_names,"for %f%%"%fraction_loss
                
                if fraction_loss > 0.05:
                    #sendEmail('we have lost too many files','%s is missing %d files, for %d events, %f %% loss'%(dsname, len(lost_file_names),n_missing, fraction_loss))
                    sendLog('stagor', '%s is missing %d files, for %d events, %f %% loss'%(dsname, len(lost_file_names),n_missing, fraction_loss), level='critical')
                    for wf in using_wfos:
                        if wf.status == 'staging':
                            print wf.name,"is doomed. setting to trouble"
                            wf.status = 'trouble'
                            session.commit()
                else:
                    ## probably enough to make a ggus and remove    
                    if not dsname in known_lost_files:
                        #sendEmail('we have lost a few files','%s is missing %d files, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_file_names),n_missing, fraction_loss, '\n'.join(lost_file_names)))
                        sendLog('stagor', '%s is missing %d files, for %d events, %f %% loss\n\n%s'%(dsname, len(lost_file_names),n_missing, fraction_loss, '\n'.join(lost_file_names)), level='critical')
                        known_lost_files[dsname] = [i['name'] for i in lost_files]

                ## should the status be change to held-staging and pending on a ticket



            missings = [pid for (pid,d) in done_by_input[dsname].items() if d==False] 
            print "\t",done_by_input[dsname]
            print "\tneeds",len(done_by_input[dsname])
            print "\tgot",done_by_input[dsname].values().count(True)
            print "\tmissing",missings
            missing_in_action[dsname].extend( missings )
        


    rr= open('%s/lost_blocks_datasets.json'%monitor_dir,'w')
    rr.write( json.dumps( known_lost_blocks, indent=2))
    rr.close()

    rr= open('%s/lost_files_datasets.json'%monitor_dir,'w')
    rr.write( json.dumps( known_lost_files, indent=2))
    rr.close()


    open('%s/incomplete_transfers.json'%monitor_dir,'w').write( json.dumps(missing_in_action, indent=2) )
    print "Stuck transfers and datasets"
    print json.dumps( missing_in_action, indent=2 )

    print "Going further and make a report of stuck transfers"

    datasets_by_phid = defaultdict(set)
    for dataset in missing_in_action:
        for phid in missing_in_action[dataset]:
            #print dataset,"stuck through",phid
            datasets_by_phid[phid].add( dataset )

    bad_destinations = defaultdict(set)
    bad_sources = defaultdict(set)
    report = ""
    really_stuck_dataset = set()
    transfer_timeout = UC.get("transfer_timeout")
    transfer_lowrate = UC.get("transfer_lowrate")
    for phid,datasets in datasets_by_phid.items():
        issues = checkTransferLag( url, phid , datasets=list(datasets) )
        for dataset in issues:
            for block in issues[dataset]:
                for destination in issues[dataset][block]:
                    (block_size,destination_size,delay,rate,dones) = issues[dataset][block][destination]
                    ## count x_Buffer and x_MSS as one source
                    redones=[]
                    for d in dones:
                        if d.endswith('Buffer') or d.endswith('Export'):
                            if d.replace('Buffer','MSS').replace('Export','MSS') in dones: 
                                continue
                            else: 
                                redones.append( d )
                        else:
                            redones.append( d )
                    dones = list(set( redones ))
                    #dones = filter(lambda s : (s.endswith('Buffer') and not s.replace('Buffer','MSS') in dones) or (not s.endswith('Buffer')) , dones)
                    if delay>transfer_timeout and rate<transfer_lowrate:
                        if len(dones)>1:
                            ## its the destination that sucks
                            bad_destinations[destination].add( block )
                        else:
                            dum=[bad_sources[d].add( block ) for d in dones]
                        really_stuck_dataset.add( dataset )
                        print "add",dataset,"to really stuck"
                        report += "%s is not getting to %s, out of %s faster than %f [GB/s] since %f [d]\n"%(block,destination,", ".join(dones), rate, delay)
    print "\n"*2

    ## create tickets right away ?
    report+="\nbad sources "+",".join(bad_sources.keys())+"\n"
    for site,blocks in bad_sources.items():
        report+="\n\n%s:"%site+"\n\t".join(['']+list(blocks))
    report+="\nbad destinations "+",".join(bad_destinations.keys())+"\n"
    for site,blocks in bad_destinations.items():
        report+="\n\n%s:"%site+"\n\t".join(['']+list(blocks))

    print '\n'*2,"Datasets really stuck"
    print '\n'.join( really_stuck_dataset )

    print '\n'*2,"report written at https://cmst2.web.cern.ch/cmst2/unified/logs/incomplete_transfers.log"
    print report

    stuck_transfers = dict([(k,v) for (k,v) in missing_in_action.items() if k in really_stuck_dataset])
    print '\n'*2,'Stuck dataset transfers'
    print json.dumps(stuck_transfers , indent=2)
    open('%s/stuck_transfers.json'%monitor_dir,'w').write( json.dumps(stuck_transfers , indent=2) )
    open('%s/logs/incomplete_transfers.log'%monitor_dir,'w').write( report )
Ejemplo n.º 58
0
def batchor(url):
    UC = unifiedConfiguration()
    SI = global_SI()
    CI = campaignInfo()
    BI = batchInfo()
    ## get all workflows in assignment-approved with SubRequestType = relval
    all_wfs = []
    for user in UC.get("user_relval"):
        all_wfs.extend(
            getWorkflows(url,
                         'assignment-approved',
                         details=True,
                         user=user,
                         rtype='TaskChain'))

    wfs = filter(
        lambda r: r['SubRequestType'] == 'RelVal'
        if 'SubRequestType' in r else False, all_wfs)
    ## need a special treatment for those
    hi_wfs = filter(
        lambda r: r['SubRequestType'] == 'HIRelVal'
        if 'SubRequestType' in r else False, all_wfs)

    by_campaign = defaultdict(set)
    by_hi_campaign = defaultdict(set)
    for wf in wfs:
        print "Relval:", wf['RequestName'], wf['Campaign']
        by_campaign[wf['Campaign']].add(wf['PrepID'])

    for wf in hi_wfs:
        print "HI Relval:", wf['RequestName'], wf['Campaign']
        by_hi_campaign[wf['Campaign']].add(wf['PrepID'])

    default_setup = {
        "go": True,
        "parameters": {
            "SiteWhitelist": ["T1_US_FNAL"],
            "MergedLFNBase": "/store/relval",
            "Team": "relval",
            "NonCustodialGroup": "RelVal"
        },
        "custodial_override": "notape",
        "phedex_group": "RelVal",
        "lumisize": -1,
        "fractionpass": 0.0,
        "maxcopies": 1
    }
    default_hi_setup = copy.deepcopy(default_setup)

    add_on = {}
    relval_routing = UC.get('relval_routing')

    def pick_one_site(p):
        ## modify the parameters on the spot to have only one site
        if "parameters" in p and "SiteWhitelist" in p["parameters"] and len(
                p["parameters"]["SiteWhitelist"]) > 1:
            choose_from = list(
                set(p["parameters"]["SiteWhitelist"]) & set(SI.sites_ready))
            picked = random.choice(choose_from)
            print "picked", picked, "from", choose_from
            p["parameters"]["SiteWhitelist"] = [picked]

    batches = BI.all()
    for campaign in by_campaign:
        if campaign in batches: continue
        ## get a bunch of information
        setup = copy.deepcopy(default_setup)

        for key in relval_routing:
            if key in campaign:
                ## augment with the routing information
                augment_with = relval_routing[key]
                print "Modifying the batch configuration because of keyword", key
                print "with", augment_with
                setup = deep_update(setup, augment_with)

        pick_one_site(setup)
        add_on[campaign] = setup
        sendLog('batchor',
                'Adding the relval campaigns %s with parameters \n%s' %
                (campaign, json.dumps(setup, indent=2)),
                level='critical')
        BI.update(campaign, by_campaign[campaign])

    for campaign in by_hi_campaign:
        if campaign in batches: continue
        ## get a bunch of information
        setup = copy.deepcopy(default_hi_setup)
        possible_sites = set(["T1_DE_KIT", "T1_FR_CCIN2P3"])
        hi_site = random.choice(list(possible_sites))
        setup["parameters"]["SiteWhitelist"] = [hi_site]

        pick_one_site(setup)
        add_on[campaign] = setup
        sendLog('batchor',
                'Adding the HI relval campaigns %s with parameters \n%s' %
                (campaign, json.dumps(setup, indent=2)),
                level='critical')
        BI.update(campaign, by_hi_campaign[campaign])

    ## only new campaigns in announcement
    for new_campaign in list(
            set(add_on.keys()) - set(CI.all(c_type='relval'))):
        ## this is new, and can be announced as such
        print new_campaign, "is new stuff"
        subject = "Request of RelVal samples batch %s" % new_campaign
        text = """Dear all, 
A new batch of relval workflows was requested.

Batch ID:

%s

Details of the workflows:

https://dmytro.web.cern.ch/dmytro/cmsprodmon/requests.php?campaign=%s

This is an automated message""" % (
            new_campaign,
            new_campaign,
        )

        print subject
        print text
        to = ['*****@*****.**']
        sendEmail(subject, text, destination=to)
        sendLog('batchor', text, level='critical')

    ## go through all existing campaigns and remove the ones not in use anymore ?
    for old_campaign in CI.all(c_type='relval'):
        all_in_batch = getWorkflowByCampaign(url, old_campaign, details=True)
        if not all_in_batch: continue
        is_batch_done = all(
            map(
                lambda s: not s in [
                    'completed', 'force-complete', 'running-open',
                    'running-closed', 'acquired', 'assigned',
                    'assignment-approved'
                ], [wf['RequestStatus'] for wf in all_in_batch]))
        ## check all statuses
        if is_batch_done:
            #print "batch",old_campaign,"can be closed or removed if necessary"
            #campaigns[old_campaign]['go'] = False ## disable
            CI.pop(old_campaign)  ## or just drop it all together ?
            BI.pop(old_campaign)
            print "batch", old_campaign, " configuration was removed"

    ## merge all anyways
    CI.update(add_on, c_type='relval')
Ejemplo n.º 59
0
def completor(url, specific):

    CI = campaignInfo()

    wfs = []
    wfs.extend(session.query(Workflow).filter(Workflow.status == "away").all())
    ##wfs.extend( session.query(Workflow).filter(Workflow.status.startswith('assistance')).all() )

    ## just take it in random order
    random.shuffle(wfs)

    ## by workflow a list of fraction / timestamps
    completions = json.loads(open("completions.json").read())

    good_fractions = {}
    for c in CI.campaigns:
        if "force-complete" in CI.campaigns[c]:
            good_fractions[c] = CI.campaigns[c]["force-complete"]

    print "can force complete on"
    print json.dumps(good_fractions, indent=2)
    for wfo in wfs:
        if specific and not specific in wfo.name:
            continue

        if not any([c in wfo.name for c in good_fractions]):
            continue

        print "looking at", wfo.name
        ## get all of the same
        wfi = workflowInfo(url, wfo.name)

        if not "Campaign" in wfi.request:
            continue
        c = wfi.request["Campaign"]
        if not c in good_fractions:
            continue
        good_fraction = good_fractions[c]
        ignore_fraction = 2.0

        lumi_expected = None
        event_expected = None
        if not "TotalInputEvents" in wfi.request:
            if "RequestNumEvents" in wfi.request:
                event_expected = wfi.request["RequestNumEvents"]
            else:
                continue
        else:
            lumi_expected = wfi.request["TotalInputLumis"]
            event_expected = wfi.request["TotalInputEvents"]

        now = time.mktime(time.gmtime()) / (60 * 60 * 24.0)

        running_log = filter(
            lambda change: change["Status"] in ["running-open", "running-closed"], wfi.request["RequestTransition"]
        )
        if not running_log:
            print "\tHas no running log"
            # cannot figure out when the thing started running
            continue
        then = running_log[-1]["UpdateTime"] / (60.0 * 60.0 * 24.0)
        delay = now - then  ## in days

        (w, d) = divmod(delay, 7)
        print "\t" * int(w) + "Running since", delay, "[days]"
        if delay <= 4:
            continue
        if delay >= 7:
            sendEmail("long lasting workflow", "%s has been running for %s days" % (wfo.name, delay))

        percent_completions = {}
        for output in wfi.request["OutputDatasets"]:
            if not output in completions:
                completions[output] = {"injected": None, "checkpoints": [], "workflow": wfo.name}
            ## get completion fraction
            event_count, lumi_count = getDatasetEventsAndLumis(dataset=output)
            lumi_completion = 0.0
            event_completion = 0.0
            if lumi_expected:
                lumi_completion = lumi_count / float(lumi_expected)
            if event_expected:
                event_completion = event_count / float(event_expected)

            # take the less optimistic
            percent_completions[output] = min(lumi_completion, event_completion)
            completions[output]["checkpoints"].append((now, event_completion))

        if all([percent_completions[out] >= good_fraction for out in percent_completions]):
            print "all is above", good_fraction, "for", wfo.name
            print json.dumps(percent_completions, indent=2)
        else:
            print "\t", percent_completions.values(), "not over bound", good_fraction
            # print json.dumps( percent_completions, indent=2 )
            continue

        if all([percent_completions[out] >= ignore_fraction for out in percent_completions]):
            print "all is done, just wait a bit"
            continue

        for output in percent_completions:
            completions[output]["injected"] = then

        # further check on delays
        cpuh = wfi.getComputingTime(unit="d")

        ran_at = wfi.request["SiteWhitelist"]
        print "Required:", cpuh,
        print "Time spend:", delay

        ## find ACDCs that might be running
        familly = getWorkflowById(url, wfi.request["PrepID"], details=True)
        for member in familly:
            ### if member['RequestName'] == wl['RequestName']: continue ## set himself out
            if member["RequestDate"] < wfi.request["RequestDate"]:
                continue
            if member["RequestStatus"] in ["None", None]:
                continue
            ## then set force complete all members
            if member["RequestStatus"] in ["running-opened", "running-closed"]:
                print "setting", member["RequestName"], "force-complete"
                print "NOT REALLY FORCING"
                sendEmail(
                    "force completing",
                    "TAGGING %s is worth force completing\n%s" % (member["RequestName"], percent_completions),
                )
                ##reqMgrClient.setWorkflowForceComplete(url, member['RequestName'])

        ## do it once only for testing
        # break

    open("completions.json", "w").write(json.dumps(completions, indent=2))