Beispiel #1
0
 def handle(self, *args, **options):
     oservice = options['service']
     if not oservice:
         services = Service.objects.all()
     else:
         services = [oservice]
     if options['list_services']:
         print('available services')
         for s in services:
             print('  ', s.name, '(', s.url, ')')
             print('   type', s.service_type.name)
             print('   running on', s.host.name, s.host.ip)
             print('   active:', s.active)
             if s.last_check:
                 print('    last check:', s.last_check)
             else:
                 print('    not checked yet')
             print(' ')
         return
     c = CollectorAPI()
     for s in services:
         try:
             self.run_check(s,
                            collector=c,
                            since=options['since'],
                            until=options['until'],
                            force_check=options['force_check'],
                            format=options['format'])
         except Exception as err:
             log.error("Cannot collect from %s: %s", s, err, exc_info=err)
             if options['halt_on_errors']:
                 raise
     if not options['do_not_clear']:
         log.info("Clearing old data")
         c.clear_old_data()
     if options['emit_notifications']:
         log.info("Processing notifications for %s", options['until'])
         s = Service.objects.first()
         interval = s.check_interval
         now = datetime.utcnow().replace(tzinfo=pytz.utc)
         notifications_check = now - interval
         c.emit_notifications()  #notifications_check)
Beispiel #2
0
    def test_notifications_api(self):
        capi = CollectorAPI()
        start = datetime.utcnow().replace(tzinfo=pytz.utc)

        start_aligned = align_period_start(start, self.service.check_interval)
        end_aligned = start_aligned + self.service.check_interval

        # for (metric_name, field_opt, use_service,
        #     use_resource, use_label, use_ows_service,
        #     minimum, maximum, thresholds,) in thresholds:

        notifications_config = (
            'geonode is not working', 'detects when requests are not handled',
            (
                (
                    'request.count',
                    'min_value',
                    False,
                    False,
                    False,
                    False,
                    0,
                    10,
                    None,
                    'Number of handled requests is lower than',
                ),
                (
                    'response.time',
                    'max_value',
                    False,
                    False,
                    False,
                    False,
                    500,
                    None,
                    None,
                    'Response time is higher than',
                ),
            ))
        nc = NotificationCheck.create(*notifications_config)
        self.assertTrue(nc.definitions.all().count() == 2)

        user = self.u2
        pwd = self.passwd2

        self.client.login(username=user.username, password=pwd)
        for nc in NotificationCheck.objects.all():
            notifications_config_url = reverse(
                'monitoring:api_user_notification_config', args=(nc.id, ))
            nc_form = nc.get_user_form()
            self.assertTrue(nc_form)
            self.assertTrue(nc_form.fields.keys())
            vals = [1000000, 100000]
            data = {'emails': []}
            data['emails'] = '\n'.join(data['emails'])
            idx = 0
            for fname, field in nc_form.fields.items():
                if fname in self.reserved_fields:
                    continue
                data[fname] = vals[idx]
                idx += 1
            resp = self.client.post(notifications_config_url, data)

            self.assertEqual(resp.status_code, 400)

            vals = [7, 600]
            data = {
                'emails':
                '\n'.join([self.u.email, self.u2.email, '*****@*****.**'])
            }
            idx = 0
            for fname, field in nc_form.fields.items():
                if fname in self.reserved_fields:
                    continue
                data[fname] = vals[idx]
                idx += 1
            # data['emails'] = '\n'.join(data['emails'])
            resp = self.client.post(notifications_config_url, data)
            nc.refresh_from_db()
            self.assertEqual(resp.status_code, 200, resp)

            _emails = data['emails'].split('\n')[-1:]
            _users = data['emails'].split('\n')[:-1]
            self.assertEqual(set([u.email for u in nc.get_users()]),
                             set(_users))
            self.assertEqual(set([email for email in nc.get_emails()]),
                             set(_emails))

        metric_rq_count = Metric.objects.get(name='request.count')
        metric_rq_time = Metric.objects.get(name='response.time')

        MetricValue.add(metric_rq_count,
                        start_aligned,
                        end_aligned,
                        self.service,
                        label="Count",
                        value_raw=0,
                        value_num=0,
                        value=0)

        MetricValue.add(metric_rq_time,
                        start_aligned,
                        end_aligned,
                        self.service,
                        label="Count",
                        value_raw=700,
                        value_num=700,
                        value=700)

        nc = NotificationCheck.objects.get()
        self.assertTrue(len(nc.get_emails()) > 0)
        self.assertTrue(len(nc.get_users()) > 0)
        self.assertEqual(nc.last_send, None)
        self.assertTrue(nc.can_send)

        self.assertEqual(len(mail.outbox), 0)

        # make sure inactive will not trigger anything
        nc.active = False
        nc.save()
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), 0)

        nc.active = True
        nc.save()
        capi.emit_notifications(start)
        self.assertTrue(nc.receivers.all().count() > 0)
        self.assertEqual(len(mail.outbox), nc.receivers.all().count())

        nc.refresh_from_db()
        notifications_url = reverse('monitoring:api_user_notifications')
        nresp = self.client.get(notifications_url)
        self.assertEqual(nresp.status_code, 200)
        ndata = json.loads(nresp.content)
        self.assertEqual(
            set([n['id'] for n in ndata['data']]),
            set(NotificationCheck.objects.all().values_list('id', flat=True)))

        self.assertTrue(isinstance(nc.last_send, datetime))
        self.assertFalse(nc.can_send)
        mail.outbox = []
        self.assertEqual(len(mail.outbox), 0)
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), 0)

        nc.last_send = start - nc.grace_period
        nc.save()

        self.assertTrue(nc.can_send)
        mail.outbox = []
        self.assertEqual(len(mail.outbox), 0)
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), nc.receivers.all().count())
Beispiel #3
0
def collect_metric(**options):
    from geonode.celery_app import app
    from geonode.tasks.tasks import memcache_lock
    from geonode.monitoring.models import Service
    from geonode.monitoring.collector import CollectorAPI

    _start_time = None
    _end_time = None
    # The cache key consists of the task name and the MD5 digest
    # of the name.
    name = b'collect_metric'
    hexdigest = md5(name).hexdigest()
    lock_id = '{0}-lock-{1}'.format(name, hexdigest)
    _start_time = datetime.utcnow().isoformat()
    log.info('[{}] Collecting Metrics - started @ {}'.format(
        lock_id, _start_time))
    with memcache_lock(lock_id, app.oid) as acquired:
        if acquired:
            oservice = options['service']
            if not oservice:
                services = Service.objects.all()
            else:
                services = [oservice]
            if options['list_services']:
                print('available services')
                for s in services:
                    print('  ', s.name, '(', s.url, ')')
                    print('   type', s.service_type.name)
                    print('   running on', s.host.name, s.host.ip)
                    print('   active:', s.active)
                    if s.last_check:
                        print('    last check:', s.last_check)
                    else:
                        print('    not checked yet')
                    print(' ')
                return
            c = CollectorAPI()
            for s in services:
                try:
                    run_check(s,
                              collector=c,
                              since=options['since'],
                              until=options['until'],
                              force_check=options['force_check'],
                              format=options['format'])
                except Exception as err:
                    log.error("Cannot collect from %s: %s",
                              s,
                              err,
                              exc_info=err)
                    if options['halt_on_errors']:
                        raise
            if not options['do_not_clear']:
                log.debug("Clearing old data")
                c.clear_old_data()
            if options['emit_notifications']:
                log.debug("Processing notifications for %s", options['until'])
                # s = Service.objects.first()
                # interval = s.check_interval
                # now = datetime.utcnow().replace(tzinfo=pytz.utc)
                # notifications_check = now - interval
                c.emit_notifications()  # notifications_check))
            _end_time = datetime.utcnow().isoformat()
            log.info('[{}] Collecting Metrics - finished @ {}'.format(
                lock_id, _end_time))
    return (_start_time, _end_time)
Beispiel #4
0
def collect_metric(**options):
    from geonode.tasks.tasks import memcache_lock
    from geonode.monitoring.models import Service
    from geonode.monitoring.collector import CollectorAPI

    _start_time = None
    _end_time = None
    # The cache key consists of the task name and the MD5 digest
    # of the name.
    name = b'collect_metric'
    hexdigest = md5(name).hexdigest()
    lock_id = f'{name.decode()}-lock-{hexdigest}'
    _start_time = _end_time = datetime.utcnow().isoformat()
    log.info('[{}] Collecting Metrics - started @ {}'.format(
        lock_id, _start_time))
    lock = memcache_lock(lock_id)
    if lock.acquire(blocking=False) is True:
        log.info('[{}] Collecting Metrics - [...acquired lock] @ {}'.format(
            lock_id, _start_time))
        try:
            oservice = options['service']
            if not oservice:
                services = Service.objects.all()
            else:
                services = [oservice]
            if options['list_services']:
                print('available services')
                for s in services:
                    print('  ', s.name, '(', s.url, ')')
                    print('   type', s.service_type.name)
                    print('   running on', s.host.name, s.host.ip)
                    print('   active:', s.active)
                    if s.last_check:
                        print('    last check:', s.last_check)
                    else:
                        print('    not checked yet')
                    print(' ')
                return
            c = CollectorAPI()
            for s in services:
                try:
                    run_check(s,
                              collector=c,
                              since=options['since'],
                              until=options['until'],
                              force_check=options['force_check'],
                              format=options['format'])
                except Exception as e:
                    log.warning(e)
            if not options['do_not_clear']:
                log.info("Clearing old data")
                c.clear_old_data()
            if options['emit_notifications']:
                log.info("Processing notifications for %s", options['until'])
                # s = Service.objects.first()
                # interval = s.check_interval
                # now = datetime.utcnow().replace(tzinfo=pytz.utc)
                # notifications_check = now - interval
                c.emit_notifications()  # notifications_check))
            _end_time = datetime.utcnow().isoformat()
            log.info('[{}] Collecting Metrics - finished @ {}'.format(
                lock_id, _end_time))
        except Exception as e:
            log.info('[{}] Collecting Metrics - errored @ {}'.format(
                lock_id, _end_time))
            log.exception(e)
        finally:
            lock.release()
    log.info('[{}] Collecting Metrics - exit @ {}'.format(lock_id, _end_time))
    return (_start_time, _end_time)
Beispiel #5
0
    def test_notifications_api(self):
        capi = CollectorAPI()
        start = datetime.utcnow().replace(tzinfo=pytz.utc)

        start_aligned = align_period_start(start, self.service.check_interval)
        end_aligned = start_aligned + self.service.check_interval

        # for (metric_name, field_opt, use_service,
        #     use_resource, use_label, use_ows_service,
        #     minimum, maximum, thresholds,) in thresholds:

        notifications_config = ('geonode is not working',
                                'detects when requests are not handled',
                                (('request.count', 'min_value', False, False,
                                  False, False, 0, 10, None, 'Number of handled requests is lower than',),
                                 ('response.time', 'max_value', False, False,
                                  False, False, 500, None, None, 'Response time is higher than',),))
        nc = NotificationCheck.create(*notifications_config)
        self.assertTrue(nc.definitions.all().count() == 2)

        user = self.u2
        pwd = self.passwd2

        self.client.login(username=user.username, password=pwd)
        for nc in NotificationCheck.objects.all():
            notifications_config_url = reverse(
                'monitoring:api_user_notification_config', args=(nc.id,))
            nc_form = nc.get_user_form()
            self.assertTrue(nc_form)
            self.assertTrue(nc_form.fields.keys())
            vals = [1000000, 100000]
            data = {'emails': []}
            data['emails'] = '\n'.join(data['emails'])
            idx = 0
            for fname, field in nc_form.fields.items():
                if fname in self.reserved_fields:
                    continue
                data[fname] = vals[idx]
                idx += 1
            resp = self.client.post(notifications_config_url, data)

            self.assertEqual(resp.status_code, 400)

            vals = [7, 600]
            data = {'emails': '\n'.join(
                    [self.u.email,
                     self.u2.email,
                     '*****@*****.**'])}
            idx = 0
            for fname, field in nc_form.fields.items():
                if fname in self.reserved_fields:
                    continue
                data[fname] = vals[idx]
                idx += 1
            # data['emails'] = '\n'.join(data['emails'])
            resp = self.client.post(notifications_config_url, data)
            nc.refresh_from_db()
            self.assertEqual(resp.status_code, 200, resp)

            _emails = data['emails'].split('\n')[-1:]
            _users = data['emails'].split('\n')[:-1]
            self.assertEqual(
                set([u.email for u in nc.get_users()]),
                set(_users))
            self.assertEqual(
                set([email for email in nc.get_emails()]),
                set(_emails))

        metric_rq_count = Metric.objects.get(name='request.count')
        metric_rq_time = Metric.objects.get(name='response.time')

        MetricValue.add(metric_rq_count,
                        start_aligned,
                        end_aligned,
                        self.service,
                        label="Count",
                        value_raw=0,
                        value_num=0,
                        value=0)

        MetricValue.add(metric_rq_time,
                        start_aligned,
                        end_aligned,
                        self.service,
                        label="Count",
                        value_raw=700,
                        value_num=700,
                        value=700)

        nc = NotificationCheck.objects.get()
        self.assertTrue(len(nc.get_emails()) > 0)
        self.assertTrue(len(nc.get_users()) > 0)
        self.assertEqual(nc.last_send, None)
        self.assertTrue(nc.can_send)

        self.assertEqual(len(mail.outbox), 0)

        # make sure inactive will not trigger anything
        nc.active = False
        nc.save()
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), 0)

        nc.active = True
        nc.save()
        capi.emit_notifications(start)
        self.assertTrue(nc.receivers.all().count() > 0)
        self.assertEqual(len(mail.outbox), nc.receivers.all().count())

        nc.refresh_from_db()
        notifications_url = reverse('monitoring:api_user_notifications')
        nresp = self.client.get(notifications_url)
        self.assertEqual(nresp.status_code, 200)
        ndata = json.loads(nresp.content)
        self.assertEqual(set([n['id'] for n in ndata['data']]),
                         set(NotificationCheck.objects.all().values_list('id', flat=True)))

        self.assertTrue(isinstance(nc.last_send, datetime))
        self.assertFalse(nc.can_send)
        mail.outbox = []
        self.assertEqual(len(mail.outbox), 0)
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), 0)

        nc.last_send = start - nc.grace_period
        nc.save()

        self.assertTrue(nc.can_send)
        mail.outbox = []
        self.assertEqual(len(mail.outbox), 0)
        capi.emit_notifications(start)
        self.assertEqual(len(mail.outbox), nc.receivers.all().count())