Example #1
0
class AlignakTest(unittest.TestCase):

    time_hacker = TimeHacker()

    if sys.version_info < (2, 7):
        def assertRegex(self, *args, **kwargs):
            return self.assertRegexpMatches(*args, **kwargs)

    def setUp(self):
        self.setup_with_file(['etc/alignak_1r_1h_1s.cfg'], add_default=False)

    def setup_with_file(self, paths, add_default=True):
        self.time_hacker.set_my_time()
        self.print_header()
        # i am arbiter-like
        self.broks = {}
        self.me = None
        self.log = logger
        self.log.load_obj(self)
        if not isinstance(paths, list):
            paths = [paths]  # Fix for modules tests
            add_default = False # Don't mix config
        if add_default:
            paths.insert(0, 'etc/alignak_1r_1h_1s.cfg')
        self.config_files = paths
        self.conf = Config()
        buf = self.conf.read_config(self.config_files)
        raw_objects = self.conf.read_config_buf(buf)
        self.conf.create_objects_for_type(raw_objects, 'arbiter')
        self.conf.create_objects_for_type(raw_objects, 'module')
        self.conf.early_arbiter_linking()

        # If we got one arbiter defined here (before default) we should be in a case where
        # the tester want to load/test a module, so we simulate an arbiter daemon
        # and the modules loading phase. As it has its own modulesmanager, should
        # not impact scheduler modules ones, especially we are asking for arbiter type :)
        if len(self.conf.arbiters) == 1:
            arbdaemon = Arbiter([''],[''], False, False, None, None)
            # only load if the module_dir is reallyexisting, so was set explicitly
            # in the test configuration
            if os.path.exists(getattr(self.conf, 'modules_dir', '')):
                arbdaemon.modules_dir = self.conf.modules_dir
                arbdaemon.load_modules_manager()
            
                # we request the instances without them being *started*
                # (for those that are concerned ("external" modules):
                # we will *start* these instances after we have been daemonized (if requested)
                me = None
                for arb in self.conf.arbiters:
                    me = arb
                    arbdaemon.modules_manager.set_modules(arb.modules)
                    arbdaemon.do_load_modules()
                    arbdaemon.load_modules_configuration_objects(raw_objects)

        self.conf.create_objects(raw_objects)
        self.conf.instance_id = 0
        self.conf.instance_name = 'test'
        # Hack push_flavor, that is set by the dispatcher
        self.conf.push_flavor = 0
        self.conf.load_triggers()
        #import pdb;pdb.set_trace()
        self.conf.linkify_templates()
        #import pdb;pdb.set_trace()
        self.conf.apply_inheritance()
        #import pdb;pdb.set_trace()
        self.conf.explode()
        #print "Aconf.services has %d elements" % len(self.conf.services)
        self.conf.apply_implicit_inheritance()
        self.conf.fill_default()
        self.conf.remove_templates()
        #print "conf.services has %d elements" % len(self.conf.services)
        self.conf.override_properties()
        self.conf.linkify()
        self.conf.apply_dependencies()
        self.conf.explode_global_conf()
        self.conf.propagate_timezone_option()
        self.conf.create_business_rules()
        self.conf.create_business_rules_dependencies()
        self.conf.is_correct()
        if not self.conf.conf_is_correct:
            print "The conf is not correct, I stop here"
            self.conf.dump()
            return
        self.conf.clean()

        self.confs = self.conf.cut_into_parts()
        self.conf.prepare_for_sending()
        self.conf.show_errors()
        self.dispatcher = Dispatcher(self.conf, self.me)

        scheddaemon = Alignak(None, False, False, False, None, None)
        self.scheddaemon = scheddaemon
        self.sched = scheddaemon.sched
        scheddaemon.modules_dir = modules_dir
        scheddaemon.load_modules_manager()
        # Remember to clean the logs we just created before launching tests
        self.clear_logs()
        m = MacroResolver()
        m.init(self.conf)
        self.sched.load_conf(self.conf)
        e = ExternalCommandManager(self.conf, 'applyer')
        self.sched.external_command = e
        e.load_scheduler(self.sched)
        e2 = ExternalCommandManager(self.conf, 'dispatcher')
        e2.load_arbiter(self)
        self.external_command_dispatcher = e2
        self.sched.conf.accept_passive_unknown_check_results = False

        self.sched.schedule()

    def add(self, b):
        if isinstance(b, Brok):
            self.broks[b._id] = b
            return
        if isinstance(b, ExternalCommand):
            self.sched.run_external_command(b.cmd_line)

    def fake_check(self, ref, exit_status, output="OK"):
        #print "fake", ref
        now = time.time()
        ref.schedule(force=True)
        # now checks are schedule and we get them in
        # the action queue
        #check = ref.actions.pop()
        check = ref.checks_in_progress[0]
        self.sched.add(check)  # check is now in sched.checks[]

        # Allows to force check scheduling without setting its status nor
        # output. Useful for manual business rules rescheduling, for instance.
        if exit_status is None:
            return

        # fake execution
        check.check_time = now

        # and lie about when we will launch it because
        # if not, the schedule call for ref
        # will not really reschedule it because there
        # is a valid value in the future
        ref.next_chk = now - 0.5

        check.get_outputs(output, 9000)
        check.exit_status = exit_status
        check.execution_time = 0.001
        check.status = 'waitconsume'
        self.sched.waiting_results.append(check)


    def scheduler_loop(self, count, reflist, do_sleep=False, sleep_time=61, verbose=True):
        for ref in reflist:
            (obj, exit_status, output) = ref
            obj.checks_in_progress = []
        for loop in range(1, count + 1):
            if verbose is True:
                print "processing check", loop
            for ref in reflist:
                (obj, exit_status, output) = ref
                obj.update_in_checking()
                self.fake_check(obj, exit_status, output)
            self.sched.manage_internal_checks()

            self.sched.consume_results()
            self.sched.get_new_actions()
            self.sched.get_new_broks()
            self.sched.scatter_master_notifications()
            self.worker_loop(verbose)
            for ref in reflist:
                (obj, exit_status, output) = ref
                obj.checks_in_progress = []
            self.sched.update_downtimes_and_comments()
            #time.sleep(ref.retry_interval * 60 + 1)
            if do_sleep:
                time.sleep(sleep_time)


    def worker_loop(self, verbose=True):
        self.sched.delete_zombie_checks()
        self.sched.delete_zombie_actions()
        checks = self.sched.get_to_run_checks(True, False, worker_name='tester')
        actions = self.sched.get_to_run_checks(False, True, worker_name='tester')
        #print "------------ worker loop checks ----------------"
        #print checks
        #print "------------ worker loop actions ----------------"
        if verbose is True:
            self.show_actions()
        #print "------------ worker loop new ----------------"
        for a in actions:
            a.status = 'inpoller'
            a.check_time = time.time()
            a.exit_status = 0
            self.sched.put_results(a)
        if verbose is True:
            self.show_actions()
        #print "------------ worker loop end ----------------"


    def show_logs(self):
        print "--- logs <<<----------------------------------"
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        for brok in sorted(broks.values(), lambda x, y: x._id - y._id):
            if brok.type == 'log':
                brok.prepare()
                safe_print("LOG: ", brok.data['log'])

        print "--- logs >>>----------------------------------"


    def show_actions(self):
        print "--- actions <<<----------------------------------"
        if hasattr(self, "sched"):
            actions = self.sched.actions
        else:
            actions = self.actions
        for a in sorted(actions.values(), lambda x, y: x._id - y._id):
            if a.is_a == 'notification':
                if a.ref.my_type == "host":
                    ref = "host: %s" % a.ref.get_name()
                else:
                    ref = "host: %s svc: %s" % (a.ref.host.get_name(), a.ref.get_name())
                print "NOTIFICATION %d %s %s %s %s" % (a._id, ref, a.type, time.asctime(time.localtime(a.t_to_go)), a.status)
            elif a.is_a == 'eventhandler':
                print "EVENTHANDLER:", a
        print "--- actions >>>----------------------------------"


    def show_and_clear_logs(self):
        self.show_logs()
        self.clear_logs()


    def show_and_clear_actions(self):
        self.show_actions()
        self.clear_actions()


    def count_logs(self):
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        return len([b for b in broks.values() if b.type == 'log'])


    def count_actions(self):
        if hasattr(self, "sched"):
            actions = self.sched.actions
        else:
            actions = self.actions
        return len(actions.values())


    def clear_logs(self):
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        id_to_del = []
        for b in broks.values():
            if b.type == 'log':
                id_to_del.append(b._id)
        for id in id_to_del:
            del broks[id]


    def clear_actions(self):
        if hasattr(self, "sched"):
            self.sched.actions = {}
        else:
            self.actions = {}


    def assert_log_match(self, index, pattern, no_match=False):
        # log messages are counted 1...n, so index=1 for the first message
        if not no_match:
            self.assertGreaterEqual(self.count_logs(), index)
        regex = re.compile(pattern)
        lognum = 1
        broks = sorted(self.sched.broks.values(), key=lambda x: x._id)
        for brok in broks:
            if brok.type == 'log':
                brok.prepare()
                if index == lognum:
                    if re.search(regex, brok.data['log']):
                        return
                lognum += 1
        self.assertTrue(no_match, "%s found a matched log line in broks :\n"
                               "index=%s pattern=%r\n"
                               "broks_logs=[[[\n%s\n]]]" % (
            '*HAVE*' if no_match else 'Not',
            index, pattern, '\n'.join(
                '\t%s=%s' % (idx, b.strip())
                for idx, b in enumerate(
                    (b.data['log'] for b in broks if b.type == 'log'),
                    1)
            )
        ))

    def _any_log_match(self, pattern, assert_not):
        regex = re.compile(pattern)
        broks = getattr(self, 'sched', self).broks
        broks = sorted(broks.values(), lambda x, y: x._id - y._id)
        for brok in broks:
            if brok.type == 'log':
                brok.prepare()
                if re.search(regex, brok.data['log']):
                    self.assertTrue(not assert_not,
                                    "Found matching log line:\n"
                                    "pattern = %r\nbrok log = %r" % (pattern, brok.data['log'])
                    )
                    return
        logs = [brok.data['log'] for brok in broks if brok.type == 'log']
        self.assertTrue(assert_not,
            "No matching log line found:\n"
            "pattern = %r\n" "logs broks = %r" % (pattern, logs)
        )

    def assert_any_log_match(self, pattern):
        self._any_log_match(pattern, assert_not=False)

    def assert_no_log_match(self, pattern):
        self._any_log_match(pattern, assert_not=True)


    def get_log_match(self, pattern):
        regex = re.compile(pattern)
        res = []
        for brok in sorted(self.sched.broks.values(), lambda x, y: x._id - y._id):
            if brok.type == 'log':
                if re.search(regex, brok.data['log']):
                    res.append(brok.data['log'])
        return res

    def print_header(self):
        print "\n" + "#" * 80 + "\n" + "#" + " " * 78 + "#"
        print "#" + string.center(self.id(), 78) + "#"
        print "#" + " " * 78 + "#\n" + "#" * 80 + "\n"

    def xtest_conf_is_correct(self):
        self.print_header()
        self.assertTrue(self.conf.conf_is_correct)
Example #2
0
class AlignakTest(unittest.TestCase):

    time_hacker = TimeHacker()

    if sys.version_info < (2, 7):
        def assertRegex(self, *args, **kwargs):
            return self.assertRegexpMatches(*args, **kwargs)

    def setUp(self):
        self.setup_with_file(['etc/alignak_1r_1h_1s.cfg'], add_default=False)

    def setup_with_file(self, paths, add_default=True):
        self.time_hacker.set_my_time()
        self.print_header()
        # i am arbiter-like
        self.broks = {}
        self.me = None
        self.log = logger
        self.log.load_obj(self)
        if not isinstance(paths, list):
            paths = [paths]  # Fix for modules tests
            add_default = False # Don't mix config
        if add_default:
            paths.insert(0, 'etc/alignak_1r_1h_1s.cfg')
        self.config_files = paths
        self.conf = Config()
        buf = self.conf.read_config(self.config_files)
        raw_objects = self.conf.read_config_buf(buf)
        self.conf.create_objects_for_type(raw_objects, 'arbiter')
        self.conf.create_objects_for_type(raw_objects, 'module')
        self.conf.early_arbiter_linking()

        # If we got one arbiter defined here (before default) we should be in a case where
        # the tester want to load/test a module, so we simulate an arbiter daemon
        # and the modules loading phase. As it has its own modulesmanager, should
        # not impact scheduler modules ones, especially we are asking for arbiter type :)
        if len(self.conf.arbiters) == 1:
            arbdaemon = Arbiter([''], [''], False, False, None, None)

            arbdaemon.load_modules_manager()

            # we request the instances without them being *started*
            # (for those that are concerned ("external" modules):
            # we will *start* these instances after we have been daemonized (if requested)
            me = None
            for arb in self.conf.arbiters:
                me = arb
                arbdaemon.do_load_modules(arb.modules)
                arbdaemon.load_modules_configuration_objects(raw_objects)

        self.conf.create_objects(raw_objects)
        self.conf.instance_id = 0
        self.conf.instance_name = 'test'
        # Hack push_flavor, that is set by the dispatcher
        self.conf.push_flavor = 0
        self.conf.load_triggers()
        #import pdb;pdb.set_trace()
        self.conf.linkify_templates()
        #import pdb;pdb.set_trace()
        self.conf.apply_inheritance()
        #import pdb;pdb.set_trace()
        self.conf.explode()
        #print "Aconf.services has %d elements" % len(self.conf.services)
        self.conf.apply_implicit_inheritance()
        self.conf.fill_default()
        self.conf.remove_templates()
        #print "conf.services has %d elements" % len(self.conf.services)
        self.conf.override_properties()
        self.conf.linkify()
        self.conf.apply_dependencies()
        self.conf.explode_global_conf()
        self.conf.propagate_timezone_option()
        self.conf.create_business_rules()
        self.conf.create_business_rules_dependencies()
        self.conf.is_correct()
        if not self.conf.conf_is_correct:
            print "The conf is not correct, I stop here"
            self.conf.dump()
            return
        self.conf.clean()

        self.confs = self.conf.cut_into_parts()
        self.conf.prepare_for_sending()
        self.conf.show_errors()
        self.dispatcher = Dispatcher(self.conf, self.me)

        scheddaemon = Alignak(None, False, False, False, None, None)
        self.scheddaemon = scheddaemon
        self.sched = scheddaemon.sched
        scheddaemon.load_modules_manager()
        # Remember to clean the logs we just created before launching tests
        self.clear_logs()
        m = MacroResolver()
        m.init(self.conf)
        self.sched.load_conf(self.conf)
        e = ExternalCommandManager(self.conf, 'applyer')
        self.sched.external_command = e
        e.load_scheduler(self.sched)
        e2 = ExternalCommandManager(self.conf, 'dispatcher')
        e2.load_arbiter(self)
        self.external_command_dispatcher = e2
        self.sched.conf.accept_passive_unknown_check_results = False

        self.sched.schedule()

    def add(self, b):
        if isinstance(b, Brok):
            self.broks[b._id] = b
            return
        if isinstance(b, ExternalCommand):
            self.sched.run_external_command(b.cmd_line)

    def fake_check(self, ref, exit_status, output="OK"):
        #print "fake", ref
        now = time.time()
        ref.schedule(force=True)
        # now checks are schedule and we get them in
        # the action queue
        #check = ref.actions.pop()
        check = ref.checks_in_progress[0]
        self.sched.add(check)  # check is now in sched.checks[]

        # Allows to force check scheduling without setting its status nor
        # output. Useful for manual business rules rescheduling, for instance.
        if exit_status is None:
            return

        # fake execution
        check.check_time = now

        # and lie about when we will launch it because
        # if not, the schedule call for ref
        # will not really reschedule it because there
        # is a valid value in the future
        ref.next_chk = now - 0.5

        check.get_outputs(output, 9000)
        check.exit_status = exit_status
        check.execution_time = 0.001
        check.status = 'waitconsume'
        self.sched.waiting_results.append(check)


    def scheduler_loop(self, count, reflist, do_sleep=False, sleep_time=61, verbose=True):
        for ref in reflist:
            (obj, exit_status, output) = ref
            obj.checks_in_progress = []
        for loop in range(1, count + 1):
            if verbose is True:
                print "processing check", loop
            for ref in reflist:
                (obj, exit_status, output) = ref
                obj.update_in_checking()
                self.fake_check(obj, exit_status, output)
            self.sched.manage_internal_checks()

            self.sched.consume_results()
            self.sched.get_new_actions()
            self.sched.get_new_broks()
            self.sched.scatter_master_notifications()
            self.worker_loop(verbose)
            for ref in reflist:
                (obj, exit_status, output) = ref
                obj.checks_in_progress = []
            self.sched.update_downtimes_and_comments()
            #time.sleep(ref.retry_interval * 60 + 1)
            if do_sleep:
                time.sleep(sleep_time)


    def worker_loop(self, verbose=True):
        self.sched.delete_zombie_checks()
        self.sched.delete_zombie_actions()
        checks = self.sched.get_to_run_checks(True, False, worker_name='tester')
        actions = self.sched.get_to_run_checks(False, True, worker_name='tester')
        #print "------------ worker loop checks ----------------"
        #print checks
        #print "------------ worker loop actions ----------------"
        if verbose is True:
            self.show_actions()
        #print "------------ worker loop new ----------------"
        for a in actions:
            a.status = 'inpoller'
            a.check_time = time.time()
            a.exit_status = 0
            self.sched.put_results(a)
        if verbose is True:
            self.show_actions()
        #print "------------ worker loop end ----------------"


    def show_logs(self):
        print "--- logs <<<----------------------------------"
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        for brok in sorted(broks.values(), lambda x, y: x._id - y._id):
            if brok.type == 'log':
                brok.prepare()
                safe_print("LOG: ", brok.data['log'])

        print "--- logs >>>----------------------------------"


    def show_actions(self):
        print "--- actions <<<----------------------------------"
        if hasattr(self, "sched"):
            actions = self.sched.actions
        else:
            actions = self.actions
        for a in sorted(actions.values(), lambda x, y: x._id - y._id):
            if a.is_a == 'notification':
                if a.ref.my_type == "host":
                    ref = "host: %s" % a.ref.get_name()
                else:
                    ref = "host: %s svc: %s" % (a.ref.host.get_name(), a.ref.get_name())
                print "NOTIFICATION %d %s %s %s %s" % (a._id, ref, a.type, time.asctime(time.localtime(a.t_to_go)), a.status)
            elif a.is_a == 'eventhandler':
                print "EVENTHANDLER:", a
        print "--- actions >>>----------------------------------"


    def show_and_clear_logs(self):
        self.show_logs()
        self.clear_logs()


    def show_and_clear_actions(self):
        self.show_actions()
        self.clear_actions()


    def count_logs(self):
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        return len([b for b in broks.values() if b.type == 'log'])


    def count_actions(self):
        if hasattr(self, "sched"):
            actions = self.sched.actions
        else:
            actions = self.actions
        return len(actions.values())


    def clear_logs(self):
        if hasattr(self, "sched"):
            broks = self.sched.broks
        else:
            broks = self.broks
        id_to_del = []
        for b in broks.values():
            if b.type == 'log':
                id_to_del.append(b._id)
        for id in id_to_del:
            del broks[id]


    def clear_actions(self):
        if hasattr(self, "sched"):
            self.sched.actions = {}
        else:
            self.actions = {}


    def assert_log_match(self, index, pattern, no_match=False):
        # log messages are counted 1...n, so index=1 for the first message
        if not no_match:
            self.assertGreaterEqual(self.count_logs(), index)
        regex = re.compile(pattern)
        lognum = 1
        broks = sorted(self.sched.broks.values(), key=lambda x: x._id)
        for brok in broks:
            if brok.type == 'log':
                brok.prepare()
                if index == lognum:
                    if re.search(regex, brok.data['log']):
                        return
                lognum += 1
        self.assertTrue(no_match, "%s found a matched log line in broks :\n"
                               "index=%s pattern=%r\n"
                               "broks_logs=[[[\n%s\n]]]" % (
            '*HAVE*' if no_match else 'Not',
            index, pattern, '\n'.join(
                '\t%s=%s' % (idx, b.strip())
                for idx, b in enumerate(
                    (b.data['log'] for b in broks if b.type == 'log'),
                    1)
            )
        ))

    def _any_log_match(self, pattern, assert_not):
        regex = re.compile(pattern)
        broks = getattr(self, 'sched', self).broks
        broks = sorted(broks.values(), lambda x, y: x._id - y._id)
        for brok in broks:
            if brok.type == 'log':
                brok.prepare()
                if re.search(regex, brok.data['log']):
                    self.assertTrue(not assert_not,
                                    "Found matching log line:\n"
                                    "pattern = %r\nbrok log = %r" % (pattern, brok.data['log'])
                    )
                    return
        logs = [brok.data['log'] for brok in broks if brok.type == 'log']
        self.assertTrue(assert_not,
            "No matching log line found:\n"
            "pattern = %r\n" "logs broks = %r" % (pattern, logs)
        )

    def assert_any_log_match(self, pattern):
        self._any_log_match(pattern, assert_not=False)

    def assert_no_log_match(self, pattern):
        self._any_log_match(pattern, assert_not=True)


    def get_log_match(self, pattern):
        regex = re.compile(pattern)
        res = []
        for brok in sorted(self.sched.broks.values(), lambda x, y: x._id - y._id):
            if brok.type == 'log':
                if re.search(regex, brok.data['log']):
                    res.append(brok.data['log'])
        return res

    def print_header(self):
        print "\n" + "#" * 80 + "\n" + "#" + " " * 78 + "#"
        print "#" + string.center(self.id(), 78) + "#"
        print "#" + " " * 78 + "#\n" + "#" * 80 + "\n"

    def xtest_conf_is_correct(self):
        self.print_header()
        self.assertTrue(self.conf.conf_is_correct)
Example #3
0
class TestEndParsingType(unittest.TestCase):
    def check_object_property(self, obj, prop):
        if prop in (
                'realm',  # Realm
                'check_period',  # CheckPeriod
                'check_command',  # CommandCall
                'event_handler',  # CommandCall
                'notification_period',  # Timeperiod
                'service_notification_period',  # Timeperiod
                'host_notification_period',  # Timeperiod
        ):
            # currently not supported / handled or badly parsed / decoded properties values..
            # TODO: consider to also handles them properly ..
            return
        value = getattr(obj, prop, None)
        if value is not None:
            obj_expected_type = self.map_type(obj.properties[prop])
            self.assertIsInstance(
                value, obj_expected_type,
                "The %s attr/property of %s object isn't a %s: %s, value=%r" %
                (prop, obj, obj_expected_type, value.__class__, value))

    def map_type(self, obj):
        # TODO: Replace all basestring with unicode when done in property.default attribute
        # TODO: Fix ToGuessProp as it may be a list.

        if isinstance(obj, ListProp):
            return list

        if isinstance(obj, StringProp):
            return basestring

        if isinstance(obj, UnusedProp):
            return basestring

        if isinstance(obj, BoolProp):
            return bool

        if isinstance(obj, IntegerProp):
            return int

        if isinstance(obj, FloatProp):
            return float

        if isinstance(obj, CharProp):
            return basestring

        if isinstance(obj, DictProp):
            return dict

        if isinstance(obj, AddrProp):
            return basestring

        if isinstance(obj, ToGuessProp):
            return basestring

    def print_header(self):
        print "\n" + "#" * 80 + "\n" + "#" + " " * 78 + "#"
        print "#" + string.center(self.id(), 78) + "#"
        print "#" + " " * 78 + "#\n" + "#" * 80 + "\n"

    def add(self, b):
        if isinstance(b, Brok):
            self.broks[b._id] = b
            return
        if isinstance(b, ExternalCommand):
            self.sched.run_external_command(b.cmd_line)

    def check_objects_from(self, container):
        self.assertIsInstance(container, Items)
        for obj in container:
            for prop in obj.properties:
                self.check_object_property(obj, prop)

    def test_types(self):
        path = 'etc/alignak_1r_1h_1s.cfg'
        time_hacker.set_my_time()
        self.print_header()
        # i am arbiter-like
        self.broks = {}
        self.me = None
        self.log = logger
        self.log.setLevel("INFO")
        self.log.load_obj(self)
        self.config_files = [path]
        self.conf = Config()
        buf = self.conf.read_config(self.config_files)
        raw_objects = self.conf.read_config_buf(buf)
        self.conf.create_objects_for_type(raw_objects, 'arbiter')
        self.conf.create_objects_for_type(raw_objects, 'module')
        self.conf.early_arbiter_linking()
        self.conf.create_objects(raw_objects)
        self.conf.instance_id = 0
        self.conf.instance_name = 'test'
        # Hack push_flavor, that is set by the dispatcher
        self.conf.push_flavor = 0
        self.conf.load_triggers()
        self.conf.linkify_templates()
        self.conf.apply_inheritance()
        self.conf.explode()

        self.conf.apply_implicit_inheritance()
        self.conf.fill_default()
        self.conf.remove_templates()

        self.conf.override_properties()
        self.conf.linkify()
        self.conf.apply_dependencies()
        self.conf.explode_global_conf()
        self.conf.propagate_timezone_option()
        self.conf.create_business_rules()
        self.conf.create_business_rules_dependencies()
        self.conf.is_correct()

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

        for objects in (self.conf.arbiters, self.conf.contacts,
                        self.conf.notificationways, self.conf.hosts):
            self.check_objects_from(objects)

        print "== test Check() =="
        check = Check('OK', 'check_ping', 0, 10.0)
        for prop in check.properties:
            if hasattr(check, prop):
                value = getattr(check, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['ref']:  # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(
                            value, self.map_type(check.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test Notification() =="
        notification = Notification()
        for prop in notification.properties:
            if hasattr(notification, prop):
                value = getattr(notification, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['already_start_escalations'
                                ]:  # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(
                            value,
                            self.map_type(notification.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test EventHandler() =="
        eventhandler = EventHandler('')
        for prop in eventhandler.properties:
            if hasattr(eventhandler, prop):
                value = getattr(eventhandler, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['jjjj']:  # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(
                            value,
                            self.map_type(eventhandler.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test Timeperiod() =="
        timeperiod = Timeperiod()
        for prop in timeperiod.properties:
            if hasattr(timeperiod, prop):
                value = getattr(timeperiod, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if value is not None:
                    print("TESTING %s with value %s" % (prop, value))
                    self.assertIsInstance(
                        value, self.map_type(timeperiod.properties[prop]))
                else:
                    print("Skipping %s " % prop)

        print "== test Command() =="
        command = Command({})
        for prop in command.properties:
            if hasattr(command, prop):
                value = getattr(command, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if value is not None:
                    print("TESTING %s with value %s" % (prop, value))
                    self.assertIsInstance(
                        value, self.map_type(command.properties[prop]))
                else:
                    print("Skipping %s " % prop)
class TestEndParsingType(unittest.TestCase):

    def check_object_property(self, obj, prop):
        if prop in (
                'realm',  # Realm
                'check_period',    # CheckPeriod
                'check_command',  # CommandCall
                'event_handler',  # CommandCall
                'notification_period',  # Timeperiod
                'service_notification_period',  # Timeperiod
                'host_notification_period',  # Timeperiod
        ):
            # currently not supported / handled or badly parsed / decoded properties values..
            # TODO: consider to also handles them properly ..
            return
        value = getattr(obj, prop, None)
        if value is not None:
            obj_expected_type = self.map_type(obj.properties[prop])
            self.assertIsInstance(value, obj_expected_type,
                                  "The %s attr/property of %s object isn't a %s: %s, value=%r" %
                                  (prop, obj, obj_expected_type, value.__class__, value))

    def map_type(self, obj):
        # TODO: Replace all basestring with unicode when done in property.default attribute
        # TODO: Fix ToGuessProp as it may be a list.

        if isinstance(obj, ListProp):
            return list

        if isinstance(obj, StringProp):
            return basestring

        if isinstance(obj, UnusedProp):
            return basestring

        if isinstance(obj, BoolProp):
            return bool

        if isinstance(obj, IntegerProp):
            return int

        if isinstance(obj, FloatProp):
            return float

        if isinstance(obj, CharProp):
            return basestring

        if isinstance(obj, DictProp):
            return dict

        if isinstance(obj, AddrProp):
            return basestring

        if isinstance(obj, ToGuessProp):
            return basestring

    def print_header(self):
        print "\n" + "#" * 80 + "\n" + "#" + " " * 78 + "#"
        print "#" + string.center(self.id(), 78) + "#"
        print "#" + " " * 78 + "#\n" + "#" * 80 + "\n"

    def add(self, b):
        if isinstance(b, Brok):
            self.broks[b._id] = b
            return
        if isinstance(b, ExternalCommand):
            self.sched.run_external_command(b.cmd_line)

    def check_objects_from(self, container):
        self.assertIsInstance(container, Items)
        for obj in container:
            for prop in obj.properties:
                self.check_object_property(obj, prop)

    def test_types(self):
        path = 'etc/alignak_1r_1h_1s.cfg'
        time_hacker.set_my_time()
        self.print_header()
        # i am arbiter-like
        self.broks = {}
        self.me = None
        self.log = logger
        self.log.setLevel("INFO")
        self.log.load_obj(self)
        self.config_files = [path]
        self.conf = Config()
        buf = self.conf.read_config(self.config_files)
        raw_objects = self.conf.read_config_buf(buf)
        self.conf.create_objects_for_type(raw_objects, 'arbiter')
        self.conf.create_objects_for_type(raw_objects, 'module')
        self.conf.early_arbiter_linking()
        self.conf.create_objects(raw_objects)
        self.conf.instance_id = 0
        self.conf.instance_name = 'test'
        # Hack push_flavor, that is set by the dispatcher
        self.conf.push_flavor = 0
        self.conf.load_triggers()
        self.conf.linkify_templates()
        self.conf.apply_inheritance()
        self.conf.explode()

        self.conf.apply_implicit_inheritance()
        self.conf.fill_default()
        self.conf.remove_templates()

        self.conf.override_properties()
        self.conf.linkify()
        self.conf.apply_dependencies()
        self.conf.explode_global_conf()
        self.conf.propagate_timezone_option()
        self.conf.create_business_rules()
        self.conf.create_business_rules_dependencies()
        self.conf.is_correct()

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

        for objects in (self.conf.arbiters, self.conf.contacts, self.conf.notificationways, self.conf.hosts):
            self.check_objects_from(objects)

        print "== test Check() =="
        check = Check('OK', 'check_ping', 0, 10.0)
        for prop in check.properties:
            if hasattr(check, prop):
                value = getattr(check, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['ref']: # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(value, self.map_type(check.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test Notification() =="
        notification = Notification()
        for prop in notification.properties:
            if hasattr(notification, prop):
                value = getattr(notification, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['already_start_escalations']: # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(value, self.map_type(notification.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test EventHandler() =="
        eventhandler = EventHandler('')
        for prop in eventhandler.properties:
            if hasattr(eventhandler, prop):
                value = getattr(eventhandler, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if prop not in ['jjjj']: # TODO : clean this
                    if value is not None:
                        print("TESTING %s with value %s" % (prop, value))
                        self.assertIsInstance(value, self.map_type(eventhandler.properties[prop]))
                    else:
                        print("Skipping %s " % prop)

        print "== test Timeperiod() =="
        timeperiod = Timeperiod()
        for prop in timeperiod.properties:
            if hasattr(timeperiod, prop):
                value = getattr(timeperiod, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if value is not None:
                    print("TESTING %s with value %s" % (prop, value))
                    self.assertIsInstance(value, self.map_type(timeperiod.properties[prop]))
                else:
                    print("Skipping %s " % prop)

        print "== test Command() =="
        command = Command({})
        for prop in command.properties:
            if hasattr(command, prop):
                value = getattr(command, prop)
                # We should get ride of None, maybe use the "neutral" value for type
                if value is not None:
                    print("TESTING %s with value %s" % (prop, value))
                    self.assertIsInstance(value, self.map_type(command.properties[prop]))
                else:
                    print("Skipping %s " % prop)