Exemplo n.º 1
0
    def xtest_sio_list_data_type_input_xml(self):
        cid = rand_string()
        data_format = DATA_FORMAT.XML
        transport = rand_string()

        sio_config = {'int_parameters': [rand_string()]} # Not really used but needed

        service_sio = Bunch()
        service_sio.input_required = ('first_name', 'last_name', List('emails'))

        expected_first_name = faker.first_name()
        expected_last_name = faker.last_name()
        expected_emails = sorted([faker.email(), faker.email()])

        r = Request(getLogger(__name__), sio_config)
        r.payload = etree.fromstring("""<request>
          <first_name>{}</first_name>
          <last_name>{}</last_name>
          <emails>
           <item>{}</item>
           <item>{}</item>
          </emails>
        </request>""".format(
            expected_first_name, expected_last_name, expected_emails[0], expected_emails[1]))

        r.init(True, cid, service_sio, data_format, transport, {})

        eq_(r.input.first_name, expected_first_name)
        eq_(r.input.last_name, expected_last_name)
        eq_(r.input.emails, expected_emails)
Exemplo n.º 2
0
 def test_sio_list_data_type_input_xml(self):
     cid = rand_string()
     data_format = DATA_FORMAT.XML
     transport = rand_string()
     
     sio_config = {'int_parameters': [rand_string()]} # Not really used but needed
     
     service_sio = Bunch()
     service_sio.input_required = ('first_name', 'last_name', List('emails'))
     
     expected_first_name = faker.first_name()
     expected_last_name = faker.last_name()
     expected_emails = sorted([faker.email(), faker.email()])
     
     r = Request(getLogger(__name__), sio_config)
     r.payload = etree.fromstring("""<request>
       <first_name>{}</first_name>
       <last_name>{}</last_name>
       <emails>
        <item>{}</item>
        <item>{}</item>
       </emails>
     </request>""".format(
         expected_first_name, expected_last_name, expected_emails[0], expected_emails[1]))
     
     r.init(True, cid, service_sio, data_format, transport, {})
     
     eq_(r.input.first_name, expected_first_name)
     eq_(r.input.last_name, expected_last_name)
     eq_(r.input.emails, expected_emails)
Exemplo n.º 3
0
 def __init__(self, *ignored_args, **ignored_kwargs):
     self.logger = logging.getLogger(self.get_name())
     self.server = None
     self.broker_client = None
     self.pubsub = None
     self.channel = None
     self.cid = None
     self.in_reply_to = None
     self.outgoing = None
     self.cloud = None
     self.worker_store = None
     self.odb = None
     self.data_format = None
     self.transport = None
     self.wsgi_environ = None
     self.job_type = None
     self.environ = Bunch()
     self.request = Request(self.logger)
     self.response = Response(self.logger)
     self.invocation_time = None # When was the service invoked
     self.handle_return_time = None # When did its 'handle' method finished processing the request
     self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
     self.processing_time = None # Processing time in milliseconds
     self.usage = 0 # How many times the service has been invoked
     self.slow_threshold = maxint # After how many ms to consider the response came too late
     self.name = self.__class__.get_name()
     self.impl_name = self.__class__.get_impl_name()
     self.time = None
     self.patterns = None
     self.user_config = None
     self.dictnav = DictNav
     self.listnav = ListNav
     self.has_validate_input = False
     self.has_validate_output = False
Exemplo n.º 4
0
 def test_sio_list_data_type_input_json(self):
     cid = rand_string()
     data_format = DATA_FORMAT.JSON
     transport = rand_string()
     
     sio_config = {'int_parameters': [rand_string()]} # Not really used but needed
     
     service_sio = Bunch()
     service_sio.input_required = ('first_name', 'last_name', List('emails'))
     
     expected_first_name = faker.first_name()
     expected_last_name = faker.last_name()
     expected_emails = sorted([faker.email(), faker.email()])
     
     r = Request(getLogger(__name__), sio_config)
     r.payload = {
         'first_name': expected_first_name,
         'last_name': expected_last_name,
         'emails': expected_emails,
         }
     
     r.init(True, cid, service_sio, data_format, transport, {})
     
     eq_(r.input.first_name, expected_first_name)
     eq_(r.input.last_name, expected_last_name)
     eq_(r.input.emails, expected_emails)
Exemplo n.º 5
0
 def __init__(self, *ignored_args, **ignored_kwargs):
     self.logger = logging.getLogger(self.get_name())
     self.server = None
     self.broker_client = None
     self.channel = None
     self.cid = None
     self.outgoing = None
     self.worker_store = None
     self.odb = None
     self.data_format = None
     self.transport = None
     self.wsgi_environ = None
     self.job_type = None
     self.delivery_store = None
     self.environ = {}
     self.request = Request(self.logger)
     self.response = Response(self.logger)
     self.invocation_time = None # When was the service invoked
     self.handle_return_time = None # When did its 'handle' method finished processing the request
     self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
     self.processing_time = None # Processing time in milliseconds
     self.usage = 0 # How many times the service has been invoked
     self.slow_threshold = maxint # After how many ms to consider the response came too late
     self.name = self.__class__.get_name()
     self.impl_name = self.__class__.get_impl_name()
     self.time = TimeUtil(None)
     self.from_passthrough = False
     self.passthrough_request = None
Exemplo n.º 6
0
    def xtest_sio_list_data_type_input_json(self):
        cid = rand_string()
        data_format = DATA_FORMAT.JSON
        transport = rand_string()

        sio_config = {'int_parameters': [rand_string()]} # Not really used but needed

        service_sio = Bunch()
        service_sio.input_required = ('first_name', 'last_name', List('emails'))

        expected_first_name = faker.first_name()
        expected_last_name = faker.last_name()
        expected_emails = sorted([faker.email(), faker.email()])

        r = Request(getLogger(__name__), sio_config)
        r.payload = {
            'first_name': expected_first_name,
            'last_name': expected_last_name,
            'emails': expected_emails,
            }

        r.init(True, cid, service_sio, data_format, transport, {})

        eq_(r.input.first_name, expected_first_name)
        eq_(r.input.last_name, expected_last_name)
        eq_(r.input.emails, expected_emails)
Exemplo n.º 7
0
    def test_init_no_sio(self):
        is_sio = False
        cid = uuid4().hex
        data_format = uuid4().hex
        io = uuid4().hex

        wsgi_environ = {
            'zato.http.GET': {
                uuid4().hex: uuid4().hex
            },
            'zato.http.POST': {
                uuid4().hex: uuid4().hex
            },
            'REQUEST_METHOD': uuid4().hex,
        }

        for transport in (None, URL_TYPE.PLAIN_HTTP, URL_TYPE.SOAP):
            request = Request(None)
            request.http.init(wsgi_environ)
            request.init(is_sio, cid, io, data_format, transport, wsgi_environ)

            eq_(request.http.method, wsgi_environ['REQUEST_METHOD'])
            eq_(sorted(request.http.GET.items()),
                sorted(wsgi_environ['zato.http.GET'].items()))
            eq_(sorted(request.http.POST.items()),
                sorted(wsgi_environ['zato.http.POST'].items()))
Exemplo n.º 8
0
 def __init__(self, *ignored_args, **ignored_kwargs):
     self.logger = logging.getLogger(self.get_name())
     self.server = None
     self.broker_client = None
     self.pubsub = None
     self.channel = None
     self.cid = None
     self.in_reply_to = None
     self.outgoing = None
     self.cloud = None
     self.worker_store = None
     self.odb = None
     self.data_format = None
     self.transport = None
     self.wsgi_environ = None
     self.job_type = None
     self.delivery_store = None
     self.environ = {}
     self.request = Request(self.logger)
     self.response = Response(self.logger)
     self.invocation_time = None # When was the service invoked
     self.handle_return_time = None # When did its 'handle' method finished processing the request
     self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
     self.processing_time = None # Processing time in milliseconds
     self.usage = 0 # How many times the service has been invoked
     self.slow_threshold = maxint # After how many ms to consider the response came too late
     self.name = self.__class__.get_name()
     self.impl_name = self.__class__.get_impl_name()
     self.time = TimeUtil(None)
     self.patterns = None
     self.user_config = None
     self.dictnav = DictNav
     self.listnav = ListNav
     self.has_validate_input = False
     self.has_validate_output = False
Exemplo n.º 9
0
    def test_init_no_sio(self):
        is_sio = False
        cid = uuid4().hex
        data_format = uuid4().hex
        io = uuid4().hex
        
        wsgi_environ = {
            'zato.http.GET': {uuid4().hex:uuid4().hex}, 
            'zato.http.POST': {uuid4().hex:uuid4().hex}, 
            'REQUEST_METHOD': uuid4().hex, 
        }
        
        for transport in(None, URL_TYPE.PLAIN_HTTP, URL_TYPE.SOAP):
            request = Request(None)
            request.http.init(wsgi_environ)
            request.init(is_sio, cid, io, data_format, transport, wsgi_environ)

            eq_(request.http.method, wsgi_environ['REQUEST_METHOD'])
            eq_(sorted(request.http.GET.items()), sorted(wsgi_environ['zato.http.GET'].items()))
            eq_(sorted(request.http.POST.items()), sorted(wsgi_environ['zato.http.POST'].items()))
Exemplo n.º 10
0
    def test_init_no_sio(self):
        is_sio = False
        cid = uuid4().hex
        data_format = uuid4().hex
        io = uuid4().hex

        wsgi_environ = {
            "zato.http.GET": {uuid4().hex: uuid4().hex},
            "zato.http.POST": {uuid4().hex: uuid4().hex},
            "REQUEST_METHOD": uuid4().hex,
        }

        for transport in (None, URL_TYPE.PLAIN_HTTP, URL_TYPE.SOAP):
            r = Request(None)
            r.init(is_sio, cid, io, data_format, transport, wsgi_environ)

            if transport is None:
                eq_(r.http.method, None)
                eq_(r.http.GET, None)
                eq_(r.http.POST, None)
            else:
                eq_(r.http.method, wsgi_environ["REQUEST_METHOD"])
                eq_(sorted(r.http.GET.items()), sorted(wsgi_environ["zato.http.GET"].items()))
                eq_(sorted(r.http.POST.items()), sorted(wsgi_environ["zato.http.POST"].items()))
Exemplo n.º 11
0
    def test_init_sio(self):

        is_sio = True
        cid = uuid4().hex
        data_format = uuid4().hex
        transport = uuid4().hex
        
        io_default = {'dummy':'dummy'}
        io_custom = Bunch({
            'request_elem': uuid4().hex,
            'input_required': ['a', 'b', 'c'],
            'input_optional': ['d', 'e', 'f'],
            'default_value': uuid4().hex,
            'use_text': uuid4().hex,
        })
        
        wsgi_environ = {
            'zato.http.GET': {uuid4().hex:uuid4().hex}, 
            'zato.http.POST': {uuid4().hex:uuid4().hex}, 
            'REQUEST_METHOD': uuid4().hex, 
        }
        
        def _get_params(request_params, *ignored):
            # 'g' is never overridden
            if request_params is io_custom['input_required']:
                return {'a':'a-req', 'b':'b-req', 'c':'c-req', 'g':'g-msg'}
            else:
                return {'d':'d-opt', 'e':'e-opt', 'f':'f-opt', 'g':'g-msg'}
        
        request = Request(logger)
        request.payload = None
        request.raw_request = io_default
        request.get_params = _get_params
        
        request.channel_params['a'] = 'channel_param_a'
        request.channel_params['b'] = 'channel_param_b'
        request.channel_params['c'] = 'channel_param_c'
        request.channel_params['d'] = 'channel_param_d'
        request.channel_params['e'] = 'channel_param_e'
        request.channel_params['f'] = 'channel_param_f'
        request.channel_params['h'] = 'channel_param_h' # Never overridden
        
        for io in(io_default, io_custom):
            for params_priority in PARAMS_PRIORITY:
                request.params_priority = params_priority
                request.http.init(wsgi_environ)
                request.payload = io
                request.init(is_sio, cid, io, data_format, transport, wsgi_environ)

                if io is io_default:
                    eq_(sorted(request.input.items()), 
                        sorted({'a': 'channel_param_a', 'b': 'channel_param_b', 'c': 'channel_param_c',
                         'd': 'channel_param_d', 'e': 'channel_param_e', 'f': 'channel_param_f',
                         'h':'channel_param_h'}.items()))
                else:
                    if params_priority == PARAMS_PRIORITY.CHANNEL_PARAMS_OVER_MSG:
                        eq_(sorted(request.input.items()), 
                            sorted({'a': 'channel_param_a', 'b': 'channel_param_b', 'c': 'channel_param_c',
                             'd': 'channel_param_d', 'e': 'channel_param_e', 'f': 'channel_param_f',
                             'g': 'g-msg',
                             'h':'channel_param_h'}.items()))
                    else:
                        eq_(sorted(request.input.items()), 
                            sorted({'a': 'a-req', 'b': 'b-req', 'c': 'c-req',
                             'd': 'd-opt', 'e': 'e-opt', 'f': 'f-opt',
                             'g': 'g-msg',
                             'h':'channel_param_h'}.items()))
Exemplo n.º 12
0
class Service(object):
    """ A base class for all services deployed on Zato servers, no matter
    the transport and protocol, be it plain HTTP, SOAP, WebSphere MQ or any other,
    regardless whether they're built-in or user-defined ones.
    """
    http_method_handlers = {}

    def __init__(self, *ignored_args, **ignored_kwargs):
        self.logger = logging.getLogger(self.get_name())
        self.server = None
        self.broker_client = None
        self.pubsub = None
        self.channel = None
        self.cid = None
        self.in_reply_to = None
        self.outgoing = None
        self.cloud = None
        self.worker_store = None
        self.odb = None
        self.data_format = None
        self.transport = None
        self.wsgi_environ = None
        self.job_type = None
        self.environ = Bunch()
        self.request = Request(self.logger)
        self.response = Response(self.logger)
        self.invocation_time = None # When was the service invoked
        self.handle_return_time = None # When did its 'handle' method finished processing the request
        self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
        self.processing_time = None # Processing time in milliseconds
        self.usage = 0 # How many times the service has been invoked
        self.slow_threshold = maxint # After how many ms to consider the response came too late
        self.name = self.__class__.get_name()
        self.impl_name = self.__class__.get_impl_name()
        self.time = None
        self.patterns = None
        self.user_config = None
        self.dictnav = DictNav
        self.listnav = ListNav
        self.has_validate_input = False
        self.has_validate_output = False

    @staticmethod
    def get_name_static(class_):
        return Service.get_name(class_)

    @classmethod
    def get_name(class_):
        """ Returns a service's name, settings its .name attribute along. This will
        be called once while the service is being deployed.
        """
        if not hasattr(class_, '__name'):
            name = getattr(class_, 'name', None)
            if not name:
                name = service_name_from_impl(class_.get_impl_name())
                name = class_.convert_impl_name(name)

            class_.__name = name

        return class_.__name

    @classmethod
    def get_impl_name(class_):
        if not hasattr(class_, '__impl_name'):
            class_.__impl_name = '{}.{}'.format(class_.__module__, class_.__name__)
        return class_.__impl_name

    @staticmethod
    def convert_impl_name(name):
        # TODO: Move the replace functionality over to uncamelify, possibly modifying its regexp
        split = uncamelify(name).split('.')

        path, class_name = split[:-1], split[-1]
        path = [elem.replace('_', '-') for elem in path]

        class_name = class_name[1:] if class_name.startswith('-') else class_name
        class_name = class_name.replace('.-', '.').replace('_-', '_')

        return '{}.{}'.format('.'.join(path), class_name)

    @classmethod
    def add_http_method_handlers(class_):

        for name in dir(class_):
            if name.startswith('handle_'):

                if not getattr(class_, 'http_method_handlers', False):
                    setattr(class_, 'http_method_handlers', {})

                method = name.replace('handle_', '')
                class_.http_method_handlers[method] = getattr(class_, name)

    def _init(self):
        """ Actually initializes the service.
        """
        self.odb = self.worker_store.server.odb
        self.kvdb = self.worker_store.kvdb
        self.pubsub = self.worker_store.pubsub

        self.slow_threshold = self.server.service_store.services[self.impl_name]['slow_threshold']

        # Queues
        out_amqp = PublisherFacade(self.broker_client)
        out_jms_wmq = WMQFacade(self.broker_client)
        out_zmq = ZMQFacade(self.server)

        # Patterns
        self.patterns = PatternsFacade(self)

        # SQL
        out_sql = self.worker_store.sql_pool_store

        # Regular outconns
        out_ftp, out_odoo, out_plain_http, out_soap = self.worker_store.worker_config.outgoing_connections()

        self.outgoing = Outgoing(
            out_amqp, out_ftp, out_jms_wmq, out_odoo, out_plain_http, out_soap, None,
            None, out_zmq)

        self.outgoing = Outgoing(
            out_amqp, out_ftp, out_jms_wmq, out_odoo, out_plain_http, out_soap, out_sql,
            self.worker_store.stomp_outconn_api, out_zmq)

        # Cloud
        self.cloud = Cloud()
        self.cloud.openstack.swift = self.worker_store.worker_config.cloud_openstack_swift
        self.cloud.aws.s3 = self.worker_store.worker_config.cloud_aws_s3

        # Cassandra
        self.cassandra_conn = self.worker_store.cassandra_api
        self.cassandra_query = self.worker_store.cassandra_query_api

        # E-mail
        self.email = EMailAPI(self.worker_store.email_smtp_api, self.worker_store.email_imap_api)

        # Search
        self.search = SearchAPI(self.worker_store.search_es_api, self.worker_store.search_solr_api)

        is_sio = hasattr(self, 'SimpleIO')
        self.request.http.init(self.wsgi_environ)

        if is_sio:
            self.request.init(is_sio, self.cid, self.SimpleIO, self.data_format, self.transport, self.wsgi_environ)
            self.response.init(self.cid, self.SimpleIO, self.data_format)

        self.msg = MessageFacade(self.worker_store.msg_ns_store,
            self.worker_store.json_pointer_store, self.worker_store.xpath_store, self.worker_store.msg_ns_store,
            self.request.payload, self.time)

    def set_response_data(self, service, **kwargs):
        response = service.response.payload
        if not isinstance(response, (basestring, dict, list, tuple, EtreeElement, ObjectifiedElement)):
            response = response.getvalue(serialize=kwargs['serialize'])
            if kwargs['as_bunch']:
                response = bunchify(response)
            service.response.payload = response

        return response

    def _invoke(self, service, channel, http_channels=(CHANNEL.HTTP_SOAP, CHANNEL.INVOKE)):
        #
        # If channel is HTTP and there are any per-HTTP verb methods, it means we want for the service to be a REST target.
        # Let's say it is POST. If we have handle_POST, it is invoked. If there is no handle_POST,
        # '405 Method Not Allowed is returned'.
        #
        # However, if we have 'handle' only, it means this is always invoked and no default 405 is returned.
        #
        # In short, implement handle_* if you want REST behaviour. Otherwise, keep everything in handle.
        #

        # Ok, this is HTTP
        if channel in http_channels:

            # We have at least one per-HTTP verb handler
            if service.http_method_handlers:

                # But do we have any handler matching current request's verb?
                if service.request.http.method in service.http_method_handlers:

                    # Yes, call the handler
                    service.http_method_handlers[service.request.http.method](service)

                # No, return 405
                else:
                    service.response.status_code = METHOD_NOT_ALLOWED

            # We have no custom handlers so we always call 'handle'
            else:
                service.handle()

        # It's not HTTP so we simply call 'handle'
        else:
            service.handle()

    def extract_target(self, name):
        """ Splits a service's name into name and target, if the latter is provided on input at all.
        """
        # It can be either a name or a name followed by the target to invoke the service on,
        # i.e. 'myservice' or 'myservice@mytarget'.
        if '@' in name:
            name, target = name.split('@')
            if not target:
                raise ZatoException(self.cid, 'Target must not be empty in `{}`'.format(name))
        else:
            target = ''

        return name, target

    def update_handle(self, set_response_func, service, raw_request, channel, data_format,
            transport, server, broker_client, worker_store, cid, simple_io_config, *args, **kwargs):

        wsgi_environ = kwargs.get('wsgi_environ', {})
        payload = wsgi_environ.get('zato.request.payload')

        # Here's an edge case. If a SOAP request has a single child in Body and this child is an empty element
        # (though possibly with attributes), checking for 'not payload' alone won't suffice - this evaluates
        # to False so we'd be parsing the payload again superfluously.
        if not isinstance(payload, ObjectifiedElement) and not payload:
            payload = payload_from_request(cid, raw_request, data_format, transport)

        job_type = kwargs.get('job_type')
        channel_params = kwargs.get('channel_params', {})
        merge_channel_params = kwargs.get('merge_channel_params', True)
        params_priority = kwargs.get('params_priority', PARAMS_PRIORITY.DEFAULT)

        service.update(service, channel, server, broker_client,
            worker_store, cid, payload, raw_request, transport,
            simple_io_config, data_format, wsgi_environ,
            job_type=job_type,
            channel_params=channel_params,
            merge_channel_params=merge_channel_params,
            params_priority=params_priority, in_reply_to=wsgi_environ.get('zato.request_ctx.in_reply_to', None),
            environ=kwargs.get('environ'))

        # It's possible the call will be completely filtered out
        if service.accept():

            # Assume everything goes fine
            e, exc_formatted = None, None

            try:
                service.pre_handle()
                service.call_hooks('before')

                service.validate_input()
                self._invoke(service, channel)
                service.validate_output()

                service.call_hooks('after')
                service.post_handle()
                service.call_hooks('finalize')

            except Exception, e:
                exc_formatted = format_exc(e)
                logger.warn(exc_formatted)

            finally:
Exemplo n.º 13
0
class Service(object):
    """ A base class for all services deployed on Zato servers, no matter
    the transport and protocol, be it plain HTTP, SOAP, WebSphere MQ or any other,
    regardless whether they're built-in or user-defined ones.
    """
    http_method_handlers = {}

    def __init__(self, *ignored_args, **ignored_kwargs):
        self.logger = logging.getLogger(self.get_name())
        self.server = None
        self.broker_client = None
        self.pubsub = None
        self.channel = None
        self.cid = None
        self.in_reply_to = None
        self.outgoing = None
        self.cloud = None
        self.worker_store = None
        self.odb = None
        self.data_format = None
        self.transport = None
        self.wsgi_environ = None
        self.job_type = None
        self.delivery_store = None
        self.environ = {}
        self.request = Request(self.logger)
        self.response = Response(self.logger)
        self.invocation_time = None # When was the service invoked
        self.handle_return_time = None # When did its 'handle' method finished processing the request
        self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
        self.processing_time = None # Processing time in milliseconds
        self.usage = 0 # How many times the service has been invoked
        self.slow_threshold = maxint # After how many ms to consider the response came too late
        self.name = self.__class__.get_name()
        self.impl_name = self.__class__.get_impl_name()
        self.time = TimeUtil(None)
        self.patterns = None
        self.user_config = None
        self.dictnav = DictNav
        self.listnav = ListNav
        self.has_validate_input = False
        self.has_validate_output = False

    @staticmethod
    def get_name_static(class_):
        return Service.get_name(class_)

    @classmethod
    def get_name(class_):
        """ Returns a service's name, settings its .name attribute along. This will
        be called once while the service is being deployed.
        """
        if not hasattr(class_, '__name'):
            name = getattr(class_, 'name', None)
            if not name:
                name = service_name_from_impl(class_.get_impl_name())
                name = class_.convert_impl_name(name)

            class_.__name = name

        return class_.__name

    @classmethod
    def get_impl_name(class_):
        if not hasattr(class_, '__impl_name'):
            class_.__impl_name = '{}.{}'.format(class_.__module__, class_.__name__)
        return class_.__impl_name

    @staticmethod
    def convert_impl_name(name):
        # TODO: Move the replace functionality over to uncamelify, possibly modifying its regexp
        split = uncamelify(name).split('.')

        path, class_name = split[:-1], split[-1]
        path = [elem.replace('_', '-') for elem in path]

        class_name = class_name[1:] if class_name.startswith('-') else class_name
        class_name = class_name.replace('.-', '.').replace('_-', '_')

        return '{}.{}'.format('.'.join(path), class_name)

    @classmethod
    def add_http_method_handlers(class_):

        for name in dir(class_):
            if name.startswith('handle_'):

                if not getattr(class_, 'http_method_handlers', False):
                    setattr(class_, 'http_method_handlers', {})

                method = name.replace('handle_', '')
                class_.http_method_handlers[method] = getattr(class_, name)

    def _init(self):
        """ Actually initializes the service.
        """
        self.odb = self.worker_store.server.odb
        self.kvdb = self.worker_store.kvdb
        self.time.kvdb = self.kvdb
        self.pubsub = self.worker_store.pubsub

        self.slow_threshold = self.server.service_store.services[self.impl_name]['slow_threshold']

        # Queues
        out_amqp = PublisherFacade(self.broker_client, self.server.delivery_store)
        out_jms_wmq = WMQFacade(self.broker_client, self.server.delivery_store)
        out_zmq = ZMQFacade(self.server)

        # Patterns
        self.patterns = PatternsFacade(self)

        # SQL
        out_sql = self.worker_store.sql_pool_store

        # Regular outconns
        out_ftp, out_odoo, out_plain_http, out_soap = self.worker_store.worker_config.outgoing_connections()
        self.outgoing = Outgoing(
            out_amqp, out_ftp, out_jms_wmq, out_odoo, out_plain_http, out_soap, out_sql,
            self.worker_store.stomp_outconn_api, out_zmq)

        # Cloud
        self.cloud = Cloud()
        self.cloud.openstack.swift = self.worker_store.worker_config.cloud_openstack_swift
        self.cloud.aws.s3 = self.worker_store.worker_config.cloud_aws_s3

        # Cassandra
        self.cassandra_conn = self.worker_store.cassandra_api
        self.cassandra_query = self.worker_store.cassandra_query_api

        # E-mail
        self.email = EMailAPI(self.worker_store.email_smtp_api, self.worker_store.email_imap_api)

        # Search
        self.search = SearchAPI(self.worker_store.search_es_api, self.worker_store.search_solr_api)

        is_sio = hasattr(self, 'SimpleIO')
        self.request.http.init(self.wsgi_environ)

        if is_sio:
            self.request.init(is_sio, self.cid, self.SimpleIO, self.data_format, self.transport, self.wsgi_environ)
            self.response.init(self.cid, self.SimpleIO, self.data_format)

        self.msg = MessageFacade(self.worker_store.msg_ns_store,
            self.worker_store.json_pointer_store, self.worker_store.xpath_store, self.worker_store.msg_ns_store,
            self.request.payload, self.time)

    def set_response_data(self, service, **kwargs):
        response = service.response.payload
        if not isinstance(response, (basestring, dict, list, tuple, EtreeElement, ObjectifiedElement)):
            response = response.getvalue(serialize=kwargs['serialize'])
            if kwargs['as_bunch']:
                response = bunchify(response)
            service.response.payload = response

        return response

    def _invoke(self, service, channel):
        #
        # If channel is HTTP and there are any per-HTTP verb methods, it means we want for the service to be a REST target.
        # Let's say it is POST. If we have handle_POST, it is invoked. If there is no handle_POST,
        # '405 Method Not Allowed is returned'.
        #
        # However, if we have 'handle' only, it means this is always invoked and no default 405 is returned.
        #
        # In short, implement handle_* if you want REST behaviour. Otherwise, keep everything in handle.
        #

        # Ok, this is HTTP
        if channel in (CHANNEL.HTTP_SOAP, CHANNEL.INVOKE):

            # We have at least one per-HTTP verb handler
            if service.http_method_handlers:

                # But do we have any handler matching current request's verb?
                if service.request.http.method in service.http_method_handlers:

                    # Yes, call the handler
                    service.http_method_handlers[service.request.http.method](service)

                # No, return 405
                else:
                    service.response.status_code = METHOD_NOT_ALLOWED

            # We have no custom handlers so we always call 'handle'
            else:
                service.handle()

        # It's not HTTP so we simply call 'handle'
        else:
            service.handle()

    def extract_target(self, name):
        """ Splits a service's name into name and target, if the latter is provided on input at all.
        """
        # It can be either a name or a name followed by the target to invoke the service on,
        # i.e. 'myservice' or 'myservice@mytarget'.
        if '@' in name:
            name, target = name.split('@')
            if not target:
                raise ZatoException(self.cid, 'Target must not be empty in `{}`'.format(name))
        else:
            target = ''

        return name, target

    def update_handle(self, set_response_func, service, raw_request, channel, data_format,
            transport, server, broker_client, worker_store, cid, simple_io_config, *args, **kwargs):

        wsgi_environ = kwargs.get('wsgi_environ', {})
        payload = wsgi_environ.get('zato.request.payload')

        # Here's an edge case. If a SOAP request has a single child in Body and this child is an empty element
        # (though possibly with attributes), checking for 'not payload' alone won't suffice - this evaluates
        # to False so we'd be parsing the payload again superfluously.
        if not isinstance(payload, ObjectifiedElement) and not payload:
            payload = payload_from_request(cid, raw_request, data_format, transport)

        job_type = kwargs.get('job_type')
        channel_params = kwargs.get('channel_params', {})
        merge_channel_params = kwargs.get('merge_channel_params', True)
        params_priority = kwargs.get('params_priority', PARAMS_PRIORITY.DEFAULT)

        service.update(service, channel, server, broker_client,
            worker_store, cid, payload, raw_request, transport,
            simple_io_config, data_format, wsgi_environ,
            job_type=job_type,
            channel_params=channel_params,
            merge_channel_params=merge_channel_params,
            params_priority=params_priority, in_reply_to=wsgi_environ.get('zato.request_ctx.in_reply_to', None),
            environ=kwargs.get('environ'))

        # It's possible the call will be completely filtered out
        if service.accept():

            # Assume everything goes fine
            e, exc_formatted = None, None

            try:
                service.pre_handle()
                service.call_hooks('before')

                service.validate_input()
                self._invoke(service, channel)
                service.validate_output()

                service.call_hooks('after')
                service.post_handle()
                service.call_hooks('finalize')

            except Exception, e:
                exc_formatted = format_exc(e)
                logger.warn(exc_formatted)

            finally:
Exemplo n.º 14
0
    def test_init_sio(self):

        is_sio = True
        cid = uuid4().hex
        data_format = uuid4().hex
        transport = uuid4().hex

        io_default = {}
        io_custom = Bunch(
            {
                "request_elem": uuid4().hex,
                "input_required": ["a", "b", "c"],
                "input_optional": ["d", "e", "f"],
                "default_value": uuid4().hex,
                "use_text": uuid4().hex,
            }
        )

        wsgi_environ = {
            "zato.http.GET": {uuid4().hex: uuid4().hex},
            "zato.http.POST": {uuid4().hex: uuid4().hex},
            "REQUEST_METHOD": uuid4().hex,
        }

        def _get_params(request_params, *ignored):
            # 'g' is never overridden
            if request_params is io_custom["input_required"]:
                return {"a": "a-req", "b": "b-req", "c": "c-req", "g": "g-msg"}
            else:
                return {"d": "d-opt", "e": "e-opt", "f": "f-opt", "g": "g-msg"}

        r = Request(None)
        r.payload = None
        r.get_params = _get_params

        r.channel_params["a"] = "channel_param_a"
        r.channel_params["b"] = "channel_param_b"
        r.channel_params["c"] = "channel_param_c"
        r.channel_params["d"] = "channel_param_d"
        r.channel_params["e"] = "channel_param_e"
        r.channel_params["f"] = "channel_param_f"
        r.channel_params["h"] = "channel_param_h"  # Never overridden

        for io in (io_default, io_custom):
            for params_priority in PARAMS_PRIORITY:
                r.params_priority = params_priority
                r.init(is_sio, cid, io, data_format, transport, wsgi_environ)

                if io is io_default:
                    eq_(
                        sorted(r.input.items()),
                        sorted(
                            {
                                "a": "channel_param_a",
                                "b": "channel_param_b",
                                "c": "channel_param_c",
                                "d": "channel_param_d",
                                "e": "channel_param_e",
                                "f": "channel_param_f",
                                "h": "channel_param_h",
                            }.items()
                        ),
                    )
                else:
                    if params_priority == PARAMS_PRIORITY.CHANNEL_PARAMS_OVER_MSG:
                        eq_(
                            sorted(r.input.items()),
                            sorted(
                                {
                                    "a": "channel_param_a",
                                    "b": "channel_param_b",
                                    "c": "channel_param_c",
                                    "d": "channel_param_d",
                                    "e": "channel_param_e",
                                    "f": "channel_param_f",
                                    "g": "g-msg",
                                    "h": "channel_param_h",
                                }.items()
                            ),
                        )
                    else:
                        eq_(
                            sorted(r.input.items()),
                            sorted(
                                {
                                    "a": "a-req",
                                    "b": "b-req",
                                    "c": "c-req",
                                    "d": "d-opt",
                                    "e": "e-opt",
                                    "f": "f-opt",
                                    "g": "g-msg",
                                    "h": "channel_param_h",
                                }.items()
                            ),
                        )
Exemplo n.º 15
0
    def xtest_init_sio(self):

        is_sio = True
        cid = uuid4().hex
        data_format = uuid4().hex
        transport = uuid4().hex

        io_default = {'dummy':'dummy'}
        io_custom = Bunch({
            'request_elem': uuid4().hex,
            'input_required': ['a', 'b', 'c'],
            'input_optional': ['d', 'e', 'f'],
            'default_value': uuid4().hex,
            'use_text': uuid4().hex,
        })

        wsgi_environ = {
            'zato.http.GET': {uuid4().hex:uuid4().hex},
            'zato.http.POST': {uuid4().hex:uuid4().hex},
            'REQUEST_METHOD': uuid4().hex,
        }

        for io in(io_default, io_custom):
            for params_priority in PARAMS_PRIORITY:

                request = Request(logger)
                request.payload = None
                request.raw_request = io_default

                request.channel_params['a'] = 'channel_param_a'
                request.channel_params['b'] = 'channel_param_b'
                request.channel_params['c'] = 'channel_param_c'
                request.channel_params['d'] = 'channel_param_d'
                request.channel_params['e'] = 'channel_param_e'
                request.channel_params['f'] = 'channel_param_f'
                request.channel_params['h'] = 'channel_param_h' # Never overridden

                def _get_params(request_params, *ignored):

                    # Note that 'g' is never overridden

                    if params_priority == PARAMS_PRIORITY.CHANNEL_PARAMS_OVER_MSG:
                        if request_params is io_custom['input_required']:
                            return {'a':request.channel_params['a'], 'b':request.channel_params['b'],
                                    'c':request.channel_params['c'], 'g':'g-msg'}
                        else:
                            return {'d':request.channel_params['d'], 'e':request.channel_params['e'],
                                    'f':request.channel_params['f'], 'g':'g-msg'}
                    else:
                        if request_params is io_custom['input_required']:
                            return {'a':'a-req', 'b':'b-req', 'c':'c-req', 'g':'g-msg'}
                        else:
                            return {'d':'d-opt', 'e':'e-opt', 'f':'f-opt', 'g':'g-msg'}

                request.get_params = _get_params

                request.params_priority = params_priority
                request.http.init(wsgi_environ)
                request.payload = io
                request.init(is_sio, cid, io, data_format, transport, wsgi_environ)

                if io is io_default:

                    eq_(sorted(request.input.items()),
                        sorted({'a': 'channel_param_a', 'b': 'channel_param_b',
                         'c':'channel_param_c', 'd': 'channel_param_d', 'e': 'channel_param_e', 'f': 'channel_param_f',
                         'h':'channel_param_h'}.items()))

                else:
                    if params_priority == PARAMS_PRIORITY.CHANNEL_PARAMS_OVER_MSG:

                        eq_(sorted(request.input.items()),
                            sorted({'a': 'channel_param_a', 'b': 'channel_param_b', 'c': 'channel_param_c',
                             'd': 'channel_param_d', 'e': 'channel_param_e', 'f': 'channel_param_f',
                             'g': 'g-msg',
                             'h':'channel_param_h'}.items()))

                    else:
                        eq_(sorted(request.input.items()),
                            sorted({'a': 'a-req', 'b': 'b-req', 'c': 'c-req',
                             'd': 'd-opt', 'e': 'e-opt', 'f': 'f-opt',
                             'g': 'g-msg',
                             'h':'channel_param_h'}.items()))
Exemplo n.º 16
0
class Service(object):
    """ A base class for all services deployed on Zato servers, no matter
    the transport and protocol, be it plain HTTP, SOAP, WebSphere MQ or any other,
    regardless whether they're built-in or user-defined ones.
    """
    passthrough_to = ''

    def __init__(self, *ignored_args, **ignored_kwargs):
        self.logger = logging.getLogger(self.get_name())
        self.server = None
        self.broker_client = None
        self.channel = None
        self.cid = None
        self.outgoing = None
        self.worker_store = None
        self.odb = None
        self.data_format = None
        self.transport = None
        self.wsgi_environ = None
        self.job_type = None
        self.delivery_store = None
        self.environ = {}
        self.request = Request(self.logger)
        self.response = Response(self.logger)
        self.invocation_time = None # When was the service invoked
        self.handle_return_time = None # When did its 'handle' method finished processing the request
        self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
        self.processing_time = None # Processing time in milliseconds
        self.usage = 0 # How many times the service has been invoked
        self.slow_threshold = maxint # After how many ms to consider the response came too late
        self.name = self.__class__.get_name()
        self.impl_name = self.__class__.get_impl_name()
        self.time = TimeUtil(None)
        self.from_passthrough = False
        self.passthrough_request = None

    @classmethod
    def get_name(class_):
        """ Returns a service's name, settings its .name attribute along. This will
        be called once while the service is being deployed.
        """
        if not hasattr(class_, '__name'):
            name = getattr(class_, 'name', None)
            if not name:
                name = service_name_from_impl(class_.get_impl_name())
                name = class_.convert_impl_name(name)

            class_.__name = name

        return class_.__name

    @classmethod
    def get_impl_name(class_):
        if not hasattr(class_, '__impl_name'):
            class_.__impl_name = '{}.{}'.format(class_.__module__, class_.__name__)
        return class_.__impl_name

    @staticmethod
    def convert_impl_name(name):
        # TODO: Move the replace functionality over to uncamelify, possibly modifying its regexp
        split = uncamelify(name).split('.')

        path, class_name = split[:-1], split[-1]
        path = [elem.replace('_', '-') for elem in path]

        class_name = class_name[1:] if class_name.startswith('-') else class_name
        class_name = class_name.replace('.-', '.').replace('_-', '_')

        return '{}.{}'.format('.'.join(path), class_name)

    def _init(self):
        """ Actually initializes the service.
        """
        self.odb = self.worker_store.server.odb
        self.kvdb = self.worker_store.kvdb
        self.time.kvdb = self.kvdb

        self.slow_threshold = self.server.service_store.services[self.impl_name]['slow_threshold']

        out_amqp = PublisherFacade(self.broker_client, self.server.delivery_store)
        out_jms_wmq = WMQFacade(self.broker_client, self.server.delivery_store)
        out_zmq = ZMQFacade(self.broker_client, self.server.delivery_store)
        out_sql = self.worker_store.sql_pool_store

        out_ftp, out_plain_http, out_soap = self.worker_store.worker_config.outgoing_connections()
        self.outgoing = Outgoing(out_ftp, out_amqp, out_zmq, out_jms_wmq, out_sql, out_plain_http, out_soap)

        is_sio = hasattr(self, 'SimpleIO')

        if self.passthrough_request:
            self.request = self.passthrough_request

        self.request.http.init(self.wsgi_environ)

        if is_sio:
            self.request.init(is_sio, self.cid, self.SimpleIO, self.data_format, self.transport, self.wsgi_environ)
            self.response.init(self.cid, self.SimpleIO, self.data_format)

        self.msg = MessageFacade(self.worker_store.msg_ns_store,
            self.worker_store.elem_path_store, self.worker_store.xpath_store)

    def set_response_data(self, service, **kwargs):
        response = service.response.payload
        if not isinstance(response, (basestring, dict, list, tuple)):
            response = response.getvalue(serialize=kwargs['serialize'])
            if kwargs['as_bunch']:
                response = bunchify(response)
            service.response.payload = response

        return response

    def update_handle(self, set_response_func, service, raw_request, channel, data_format,
            transport, server, broker_client, worker_store, cid, simple_io_config, *args, **kwargs):

        payload = payload_from_request(cid, raw_request, data_format, transport)

        job_type = kwargs.get('job_type')
        channel_params = kwargs.get('channel_params', {})
        merge_channel_params = kwargs.get('merge_channel_params', True)
        params_priority = kwargs.get('params_priority', PARAMS_PRIORITY.DEFAULT)
        wsgi_environ = kwargs.get('wsgi_environ', {})
        serialize = kwargs.get('serialize')
        as_bunch = kwargs.get('as_bunch')

        service.update(service, channel, server, broker_client,
            worker_store, cid, payload, raw_request, transport,
            simple_io_config, data_format, wsgi_environ,
            job_type=job_type,
            channel_params=channel_params,
            merge_channel_params=merge_channel_params,
            params_priority=params_priority)

        # Depending on whether this is a pass-through service or not we invoke
        # the target services or the one we have in hand right now. Note that
        # hooks are always invoked for the one we have a handle to right now
        # even if it's a pass-through one.

        service.pre_handle()
        service.call_hooks('before')

        if service.passthrough_to:
            sio = getattr(service, 'SimpleIO', None)
            return self.invoke(service.passthrough_to, raw_request, channel, data_format,
                    transport, serialize, as_bunch, sio=sio, from_passthrough=True,
                    passthrough_request=self.request, set_response_func=set_response_func)
        else:
            service.handle()

        service.call_hooks('after')
        service.post_handle()
        service.call_hooks('finalize')

        return set_response_func(service, data_format=data_format, transport=transport, **kwargs)

    def invoke_by_impl_name(self, impl_name, payload='', channel=CHANNEL.INVOKE, data_format=DATA_FORMAT.DICT,
            transport=None, serialize=False, as_bunch=False, **kwargs):
        """ Invokes a service synchronously by its implementation name (full dotted Python name).
        """

        if self.impl_name == impl_name:
            msg = 'A service cannot invoke itself, name:[{}]'.format(self.name)
            self.logger.error(msg)
            raise ZatoException(self.cid, msg)

        service = self.server.service_store.new_instance(impl_name)
        service.from_passthrough = kwargs.get('from_passthrough', False)
        service.passthrough_request = kwargs.get('passthrough_request', None)

        if service.from_passthrough and kwargs.get('sio'):
            service.SimpleIO = kwargs['sio']

        set_response_func = kwargs.pop('set_response_func', self.set_response_data)

        return self.update_handle(set_response_func, service, payload, channel,
            data_format, transport, self.server, self.broker_client, self.worker_store,
            self.cid, self.request.simple_io_config, serialize=serialize, as_bunch=as_bunch,
            **kwargs)

    def invoke(self, name, *args, **kwargs):
        """ Invokes a service synchronously by its name.
        """
        return self.invoke_by_impl_name(self.server.service_store.name_to_impl_name[name], *args, **kwargs)

    def invoke_by_id(self, service_id, *args, **kwargs):
        """ Invokes a service synchronously by its ID.
        """
        return self.invoke_by_impl_name(self.server.service_store.id_to_impl_name[service_id], *args, **kwargs)

    def invoke_async(self, name, payload='', channel=CHANNEL.INVOKE_ASYNC, data_format=None,
            transport=None, expiration=BROKER.DEFAULT_EXPIRATION, to_json_string=False):
        """ Invokes a service asynchronously by its name.
        """
        if to_json_string:
            payload = dumps(payload)

        cid = new_cid()

        msg = {}
        msg['action'] = SERVICE.PUBLISH
        msg['service'] = name
        msg['payload'] = payload
        msg['cid'] = cid
        msg['channel'] = channel
        msg['data_format'] = data_format
        msg['transport'] = transport

        self.broker_client.invoke_async(msg, expiration=expiration)

        return cid

    def deliver(self, def_name, payload, task_id=None, *args, **kwargs):
        """ Uses guaranteed delivery to send payload using a delivery definition known by def_name.
        *args and **kwargs will be passed directly as-is to the target behind the def_name.
        """
        task_id = task_id or new_cid()
        self.delivery_store.deliver(
            self.server.cluster_id, def_name, payload, task_id, self.invoke,
            kwargs.pop('is_resubmit', False),
            kwargs.pop('is_auto', False),
            *args, **kwargs)

        return task_id

    def pre_handle(self):
        """ An internal method run just before the service sets to process the payload.
        Used for incrementing the service's usage count and storing the service invocation time.
        """
        self.usage = self.kvdb.conn.incr('{}{}'.format(KVDB.SERVICE_USAGE, self.name))
        self.invocation_time = datetime.utcnow()

    def post_handle(self):
        """ An internal method executed after the service has completed and has
        a response ready to return. Updates its statistics and, optionally, stores
        a sample request/response pair.
        """

        #
        # Statistics
        #

        self.handle_return_time = datetime.utcnow()
        self.processing_time_raw = self.handle_return_time - self.invocation_time

        proc_time = self.processing_time_raw.total_seconds() * 1000.0
        proc_time = proc_time if proc_time > 1 else 0

        self.processing_time = int(round(proc_time))

        self.kvdb.conn.hset('{}{}'.format(KVDB.SERVICE_TIME_BASIC, self.name), 'last', self.processing_time)
        self.kvdb.conn.rpush('{}{}'.format(KVDB.SERVICE_TIME_RAW, self.name), self.processing_time)

        key = '{}{}:{}'.format(KVDB.SERVICE_TIME_RAW_BY_MINUTE,
            self.name, self.handle_return_time.strftime('%Y:%m:%d:%H:%M'))
        self.kvdb.conn.rpush(key, self.processing_time)

        # .. we'll have 5 minutes (5 * 60 seconds = 300 seconds)
        # to aggregate processing times for a given minute and then it will expire

        # Note that we need Redis 2.1.3+ otherwise the key has just been overwritten
        self.kvdb.conn.expire(key, 300)

        #
        # Sample requests/responses
        #
        key, freq = request_response.should_store(self.kvdb, self.usage, self.name)
        if freq:

            # TODO: Don't parse it here and a moment later below
            resp = (self.response.payload.getvalue() if hasattr(self.response.payload, 'getvalue') else self.response.payload) or ''

            data = {
                'cid': self.cid,
                'req_ts': self.invocation_time.isoformat(),
                'resp_ts': self.handle_return_time.isoformat(),
                'req': self.request.raw_request or '',
                'resp':resp,
            }
            request_response.store(self.kvdb, key, self.usage, freq, **data)

        #
        # Slow responses
        #
        if self.processing_time > self.slow_threshold:

            # TODO: Don't parse it here and a moment earlier above
            resp = (self.response.payload.getvalue() if hasattr(self.response.payload, 'getvalue') else self.response.payload) or ''

            data = {
                'cid': self.cid,
                'proc_time': self.processing_time,
                'slow_threshold': self.slow_threshold,
                'req_ts': self.invocation_time.isoformat(),
                'resp_ts': self.handle_return_time.isoformat(),
                'req': self.request.raw_request or '',
                'resp': resp,
            }
            slow_response.store(self.kvdb, self.name, **data)

    def translate(self, *args, **kwargs):
        raise NotImplementedError('An initializer should override this method')

    def handle(self):
        """ The only method Zato services need to implement in order to process
        incoming requests.
        """
        raise NotImplementedError('Should be overridden by subclasses')

    def lock(self, name=None, expires=20, timeout=0, backend=None):
        """ Creates a Redis-backed distributed lock.

        name - defaults to self.name effectively making access to this service serialized
        expires - defaults to 20 seconds and is the max time the lock will be held
        timeout - how long (in seconds) we will wait to acquire the lock before giving up and raising LockTimeout
        backend - a Redis connection object, defaults to self.kvdb.conn
        """
        name = '{}{}'.format(KVDB.LOCK_SERVICE_PREFIX, name or self.name)
        backend = backend or self.kvdb.conn
        return Lock(name, expires, timeout, backend)

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

    def call_job_hooks(self, prefix):
        if self.channel == CHANNEL.SCHEDULER and prefix != 'finalize':
            try:
                getattr(self, '{}_job'.format(prefix))()
            except Exception, e:
                self.logger.error("Can't run {}_job, e:[{}]".format(prefix, format_exc(e)))
            else:
                try:
                    func_name = '{}_{}_job'.format(prefix, self.job_type)
                    func = getattr(self, func_name)
                    func()
                except Exception, e:
                    self.logger.error("Can't run {}, e:[{}]".format(func_name, format_exc(e)))
Exemplo n.º 17
0
class Service(object):
    """ A base class for all services deployed on Zato servers, no matter
    the transport and protocol, be it plain HTTP, SOAP, WebSphere MQ or any other,
    regardless whether they're built-in or user-defined ones.
    """
    passthrough_to = ''

    def __init__(self, *ignored_args, **ignored_kwargs):
        self.logger = logging.getLogger(self.get_name())
        self.server = None
        self.broker_client = None
        self.pubsub = None
        self.channel = None
        self.cid = None
        self.outgoing = None
        self.cloud = None
        self.worker_store = None
        self.odb = None
        self.data_format = None
        self.transport = None
        self.wsgi_environ = None
        self.job_type = None
        self.delivery_store = None
        self.environ = {}
        self.request = Request(self.logger)
        self.response = Response(self.logger)
        self.invocation_time = None # When was the service invoked
        self.handle_return_time = None # When did its 'handle' method finished processing the request
        self.processing_time_raw = None # A timedelta object with the processing time up to microseconds
        self.processing_time = None # Processing time in milliseconds
        self.usage = 0 # How many times the service has been invoked
        self.slow_threshold = maxint # After how many ms to consider the response came too late
        self.name = self.__class__.get_name()
        self.impl_name = self.__class__.get_impl_name()
        self.time = TimeUtil(None)
        self.from_passthrough = False
        self.passthrough_request = None
        self.user_config = None
        self.dictnav = DictNav
        self.listnav = ListNav
        self.has_validate_input = False
        self.has_validate_output = False

    @staticmethod
    def get_name_static(class_):
        return Service.get_name(class_)

    @classmethod
    def get_name(class_):
        """ Returns a service's name, settings its .name attribute along. This will
        be called once while the service is being deployed.
        """
        if not hasattr(class_, '__name'):
            name = getattr(class_, 'name', None)
            if not name:
                name = service_name_from_impl(class_.get_impl_name())
                name = class_.convert_impl_name(name)

            class_.__name = name

        return class_.__name

    @classmethod
    def get_impl_name(class_):
        if not hasattr(class_, '__impl_name'):
            class_.__impl_name = '{}.{}'.format(class_.__module__, class_.__name__)
        return class_.__impl_name

    @staticmethod
    def convert_impl_name(name):
        # TODO: Move the replace functionality over to uncamelify, possibly modifying its regexp
        split = uncamelify(name).split('.')

        path, class_name = split[:-1], split[-1]
        path = [elem.replace('_', '-') for elem in path]

        class_name = class_name[1:] if class_name.startswith('-') else class_name
        class_name = class_name.replace('.-', '.').replace('_-', '_')

        return '{}.{}'.format('.'.join(path), class_name)

    def _init(self):
        """ Actually initializes the service.
        """
        self.odb = self.worker_store.server.odb
        self.kvdb = self.worker_store.kvdb
        self.time.kvdb = self.kvdb
        self.pubsub = self.worker_store.pubsub

        self.slow_threshold = self.server.service_store.services[self.impl_name]['slow_threshold']

        # Queues
        out_amqp = PublisherFacade(self.broker_client, self.server.delivery_store)
        out_jms_wmq = WMQFacade(self.broker_client, self.server.delivery_store)
        out_zmq = ZMQFacade(self.broker_client, self.server.delivery_store)

        # SQL
        out_sql = self.worker_store.sql_pool_store

        # Regular outconns
        out_ftp, out_plain_http, out_soap = self.worker_store.worker_config.outgoing_connections()
        self.outgoing = Outgoing(out_ftp, out_amqp, out_zmq, out_jms_wmq, out_sql, out_plain_http, out_soap)

        # Cloud
        self.cloud = Cloud()
        self.cloud.openstack.swift = self.worker_store.worker_config.cloud_openstack_swift
        self.cloud.aws.s3 = self.worker_store.worker_config.cloud_aws_s3

        # Cassandra
        self.cassandra_conn = self.worker_store.cassandra_api
        self.cassandra_query = self.worker_store.cassandra_query_api

        # E-mail
        self.email = EMailAPI(self.worker_store.email_smtp_api, self.worker_store.email_imap_api)

        # Search
        self.search = SearchAPI(self.worker_store.search_es_api, self.worker_store.search_solr_api)

        is_sio = hasattr(self, 'SimpleIO')
        self.request.http.init(self.wsgi_environ)

        if is_sio:
            self.request.init(is_sio, self.cid, self.SimpleIO, self.data_format, self.transport, self.wsgi_environ)
            self.response.init(self.cid, self.SimpleIO, self.data_format)

        self.msg = MessageFacade(self.worker_store.msg_ns_store,
            self.worker_store.json_pointer_store, self.worker_store.xpath_store, self.worker_store.msg_ns_store,
            self.request.payload, self.time)

    def set_response_data(self, service, **kwargs):
        response = service.response.payload
        if not isinstance(response, (basestring, dict, list, tuple, EtreeElement, ObjectifiedElement)):
            response = response.getvalue(serialize=kwargs['serialize'])
            if kwargs['as_bunch']:
                response = bunchify(response)
            service.response.payload = response

        return response

    def update_handle(self, set_response_func, service, raw_request, channel, data_format,
            transport, server, broker_client, worker_store, cid, simple_io_config, *args, **kwargs):

        wsgi_environ = kwargs.get('wsgi_environ', {})
        payload = wsgi_environ.get('zato.request.payload')

        # Here's an edge case. If a SOAP request has a single child in Body and this child is an empty element
        # (though possibly with attributes), checking for 'not payload' alone won't suffice - this evaluates
        # to False so we'd be parsing the payload again superfluously.
        if not isinstance(payload, ObjectifiedElement) and not payload:
            payload = payload_from_request(cid, raw_request, data_format, transport)

        job_type = kwargs.get('job_type')
        channel_params = kwargs.get('channel_params', {})
        merge_channel_params = kwargs.get('merge_channel_params', True)
        params_priority = kwargs.get('params_priority', PARAMS_PRIORITY.DEFAULT)
        serialize = kwargs.get('serialize')
        as_bunch = kwargs.get('as_bunch')
        channel_item = kwargs.get('channel_item')

        service.update(service, channel, server, broker_client,
            worker_store, cid, payload, raw_request, transport,
            simple_io_config, data_format, wsgi_environ,
            job_type=job_type,
            channel_params=channel_params,
            merge_channel_params=merge_channel_params,
            params_priority=params_priority)

        # Depending on whether this is a pass-through service or not we invoke
        # the target services or the one we have in hand right now. Note that
        # hooks are always invoked for the one we have a handle to right now
        # even if it's a pass-through one.

        service.pre_handle()
        service.call_hooks('before')

        if service.passthrough_to:
            sio = getattr(service, 'SimpleIO', None)
            return self.invoke(service.passthrough_to, payload, channel, data_format, transport, serialize, as_bunch,
                sio=sio, from_passthrough=True, passthrough_request=self.request, set_response_func=set_response_func,
                channel_item=channel_item)
        else:
            service.validate_input()
            service.handle()
            service.validate_output()

        service.call_hooks('after')
        service.post_handle()
        service.call_hooks('finalize')

        return set_response_func(service, data_format=data_format, transport=transport, **kwargs)

    def invoke_by_impl_name(self, impl_name, payload='', channel=CHANNEL.INVOKE, data_format=DATA_FORMAT.DICT,
            transport=None, serialize=False, as_bunch=False, timeout=None, raise_timeout=True, **kwargs):
        """ Invokes a service synchronously by its implementation name (full dotted Python name).
        """
        if self.impl_name == impl_name:
            msg = 'A service cannot invoke itself, name:[{}]'.format(self.name)
            self.logger.error(msg)
            raise ZatoException(self.cid, msg)

        service = self.server.service_store.new_instance(impl_name)
        service.from_passthrough = kwargs.get('from_passthrough', False)
        service.passthrough_request = kwargs.get('passthrough_request', None)

        if service.from_passthrough and kwargs.get('sio'):
            service.SimpleIO = kwargs['sio']

        set_response_func = kwargs.pop('set_response_func', self.set_response_data)

        invoke_args = (set_response_func, service, payload, channel, data_format, transport, self.server,
                        self.broker_client, self.worker_store, self.cid, self.request.simple_io_config)
        kwargs.update({"serialize":serialize, "as_bunch":as_bunch})

        try:
            if timeout:
                try:
                    g = spawn(self.update_handle, *invoke_args, **kwargs)
                    return g.get(block=True, timeout=timeout)
                except Timeout:
                    g.kill()
                    logger.warn('Service `%s` timed out (%s)', service.name, self.cid)
                    if raise_timeout:
                        raise
            else:
                return self.update_handle(*invoke_args, **kwargs)
        except Exception, e:
            logger.warn('Could not invoke `%s`, e:`%s`', service.name, format_exc(e))
            raise
Exemplo n.º 18
0
class Service(object):
    """ A base class for all services deployed on Zato servers, no matter
    the transport and protocol, be it plain HTTP, SOAP, WebSphere MQ or any other,
    regardless whether they're built-in or user-defined ones.
    """
    passthrough_to = ''
    http_method_handlers = {}

    def __init__(self, *ignored_args, **ignored_kwargs):
        self.logger = logging.getLogger(self.get_name())
        self.server = None
        self.broker_client = None
        self.pubsub = None
        self.channel = None
        self.cid = None
        self.outgoing = None
        self.cloud = None
        self.worker_store = None
        self.odb = None
        self.data_format = None
        self.transport = None
        self.wsgi_environ = None
        self.job_type = None
        self.delivery_store = None
        self.environ = {}
        self.request = Request(self.logger)
        self.response = Response(self.logger)
        self.invocation_time = None  # When was the service invoked
        self.handle_return_time = None  # When did its 'handle' method finished processing the request
        self.processing_time_raw = None  # A timedelta object with the processing time up to microseconds
        self.processing_time = None  # Processing time in milliseconds
        self.usage = 0  # How many times the service has been invoked
        self.slow_threshold = maxint  # After how many ms to consider the response came too late
        self.name = self.__class__.get_name()
        self.impl_name = self.__class__.get_impl_name()
        self.time = TimeUtil(None)
        self.pattern = PatternsFacade(self)
        self.from_passthrough = False
        self.passthrough_request = None
        self.user_config = None
        self.dictnav = DictNav
        self.listnav = ListNav
        self.has_validate_input = False
        self.has_validate_output = False

    @staticmethod
    def get_name_static(class_):
        return Service.get_name(class_)

    @classmethod
    def get_name(class_):
        """ Returns a service's name, settings its .name attribute along. This will
        be called once while the service is being deployed.
        """
        if not hasattr(class_, '__name'):
            name = getattr(class_, 'name', None)
            if not name:
                name = service_name_from_impl(class_.get_impl_name())
                name = class_.convert_impl_name(name)

            class_.__name = name

        return class_.__name

    @classmethod
    def get_impl_name(class_):
        if not hasattr(class_, '__impl_name'):
            class_.__impl_name = '{}.{}'.format(class_.__module__,
                                                class_.__name__)
        return class_.__impl_name

    @staticmethod
    def convert_impl_name(name):
        # TODO: Move the replace functionality over to uncamelify, possibly modifying its regexp
        split = uncamelify(name).split('.')

        path, class_name = split[:-1], split[-1]
        path = [elem.replace('_', '-') for elem in path]

        class_name = class_name[1:] if class_name.startswith(
            '-') else class_name
        class_name = class_name.replace('.-', '.').replace('_-', '_')

        return '{}.{}'.format('.'.join(path), class_name)

    @classmethod
    def add_http_method_handlers(class_):

        for name in dir(class_):
            if name.startswith('handle_'):

                if not getattr(class_, 'http_method_handlers', False):
                    setattr(class_, 'http_method_handlers', {})

                method = name.replace('handle_', '')
                class_.http_method_handlers[method] = getattr(class_, name)

    def _init(self):
        """ Actually initializes the service.
        """
        self.odb = self.worker_store.server.odb
        self.kvdb = self.worker_store.kvdb
        self.time.kvdb = self.kvdb
        self.pubsub = self.worker_store.pubsub

        self.slow_threshold = self.server.service_store.services[
            self.impl_name]['slow_threshold']

        # Queues
        out_amqp = PublisherFacade(self.broker_client,
                                   self.server.delivery_store)
        out_jms_wmq = WMQFacade(self.broker_client, self.server.delivery_store)
        out_zmq = ZMQFacade(self.broker_client, self.server.delivery_store)

        # SQL
        out_sql = self.worker_store.sql_pool_store

        # Regular outconns
        out_ftp, out_odoo, out_plain_http, out_soap = self.worker_store.worker_config.outgoing_connections(
        )
        self.outgoing = Outgoing(out_amqp, out_ftp, out_jms_wmq, out_odoo,
                                 out_plain_http, out_soap, out_sql, out_zmq)

        # Cloud
        self.cloud = Cloud()
        self.cloud.openstack.swift = self.worker_store.worker_config.cloud_openstack_swift
        self.cloud.aws.s3 = self.worker_store.worker_config.cloud_aws_s3

        # Cassandra
        self.cassandra_conn = self.worker_store.cassandra_api
        self.cassandra_query = self.worker_store.cassandra_query_api

        # E-mail
        self.email = EMailAPI(self.worker_store.email_smtp_api,
                              self.worker_store.email_imap_api)

        # Search
        self.search = SearchAPI(self.worker_store.search_es_api,
                                self.worker_store.search_solr_api)

        is_sio = hasattr(self, 'SimpleIO')
        self.request.http.init(self.wsgi_environ)

        if is_sio:
            self.request.init(is_sio, self.cid, self.SimpleIO,
                              self.data_format, self.transport,
                              self.wsgi_environ)
            self.response.init(self.cid, self.SimpleIO, self.data_format)

        self.msg = MessageFacade(self.worker_store.msg_ns_store,
                                 self.worker_store.json_pointer_store,
                                 self.worker_store.xpath_store,
                                 self.worker_store.msg_ns_store,
                                 self.request.payload, self.time)

    def set_response_data(self, service, **kwargs):
        response = service.response.payload
        if not isinstance(
                response,
            (basestring, dict, list, tuple, EtreeElement, ObjectifiedElement)):
            response = response.getvalue(serialize=kwargs['serialize'])
            if kwargs['as_bunch']:
                response = bunchify(response)
            service.response.payload = response

        return response

    def update_handle(self, set_response_func, service, raw_request, channel,
                      data_format, transport, server, broker_client,
                      worker_store, cid, simple_io_config, *args, **kwargs):

        wsgi_environ = kwargs.get('wsgi_environ', {})
        payload = wsgi_environ.get('zato.request.payload')

        # Here's an edge case. If a SOAP request has a single child in Body and this child is an empty element
        # (though possibly with attributes), checking for 'not payload' alone won't suffice - this evaluates
        # to False so we'd be parsing the payload again superfluously.
        if not isinstance(payload, ObjectifiedElement) and not payload:
            payload = payload_from_request(cid, raw_request, data_format,
                                           transport)

        job_type = kwargs.get('job_type')
        channel_params = kwargs.get('channel_params', {})
        merge_channel_params = kwargs.get('merge_channel_params', True)
        params_priority = kwargs.get('params_priority',
                                     PARAMS_PRIORITY.DEFAULT)
        serialize = kwargs.get('serialize')
        as_bunch = kwargs.get('as_bunch')
        channel_item = kwargs.get('channel_item')

        service.update(service,
                       channel,
                       server,
                       broker_client,
                       worker_store,
                       cid,
                       payload,
                       raw_request,
                       transport,
                       simple_io_config,
                       data_format,
                       wsgi_environ,
                       job_type=job_type,
                       channel_params=channel_params,
                       merge_channel_params=merge_channel_params,
                       params_priority=params_priority)

        # Depending on whether this is a pass-through service or not we invoke
        # the target services or the one we have in hand right now. Note that
        # hooks are always invoked for the one we have a handle to right now
        # even if it's a pass-through one.

        service.pre_handle()
        service.call_hooks('before')

        if service.passthrough_to:
            sio = getattr(service, 'SimpleIO', None)
            return self.invoke(service.passthrough_to,
                               payload,
                               channel,
                               data_format,
                               transport,
                               serialize,
                               as_bunch,
                               sio=sio,
                               from_passthrough=True,
                               passthrough_request=self.request,
                               set_response_func=set_response_func,
                               channel_item=channel_item)
        else:
            service.validate_input()

            #
            # If channel is HTTP and there are any per-HTTP verb methods, it means we want for the service to be a REST target.
            # Let's say it is POST. If we have handle_POST, it is invoked. If there is no handle_POST,
            # '405 Method Not Allowed is returned'.
            #
            # However, if we have 'handle' only, it means this is always invoked and no default 405 is returned.
            #
            # In short, implement handle_* if you want REST behaviour. Otherwise, keep everything in handle.
            #

            # Ok, this is HTTP
            if channel in (CHANNEL.HTTP_SOAP, CHANNEL.INVOKE):

                # We have at least one per-HTTP verb handler
                if service.http_method_handlers:

                    # But do we have any handler matching current request's verb?
                    if service.request.http.method in service.http_method_handlers:

                        # Yes, call the handler
                        service.http_method_handlers[
                            service.request.http.method](service)

                    # No, return 405
                    else:
                        service.response.status_code = METHOD_NOT_ALLOWED

                # We have no customer handlers so we always call 'handle'
                else:
                    service.handle()

            # It's not HTTP so we simply call 'handle'
            else:
                service.handle()

            service.validate_output()

        service.call_hooks('after')
        service.post_handle()
        service.call_hooks('finalize')

        return set_response_func(service,
                                 data_format=data_format,
                                 transport=transport,
                                 **kwargs)

    def invoke_by_impl_name(self,
                            impl_name,
                            payload='',
                            channel=CHANNEL.INVOKE,
                            data_format=DATA_FORMAT.DICT,
                            transport=None,
                            serialize=False,
                            as_bunch=False,
                            timeout=None,
                            raise_timeout=True,
                            **kwargs):
        """ Invokes a service synchronously by its implementation name (full dotted Python name).
        """
        if self.impl_name == impl_name:
            msg = 'A service cannot invoke itself, name:[{}]'.format(self.name)
            self.logger.error(msg)
            raise ZatoException(self.cid, msg)

        service = self.server.service_store.new_instance(impl_name)
        service.from_passthrough = kwargs.get('from_passthrough', False)
        service.passthrough_request = kwargs.get('passthrough_request', None)

        if service.from_passthrough and kwargs.get('sio'):
            service.SimpleIO = kwargs['sio']

        set_response_func = kwargs.pop('set_response_func',
                                       self.set_response_data)

        invoke_args = (set_response_func, service, payload, channel,
                       data_format, transport, self.server, self.broker_client,
                       self.worker_store, self.cid,
                       self.request.simple_io_config)
        kwargs.update({"serialize": serialize, "as_bunch": as_bunch})

        try:
            if timeout:
                try:
                    g = spawn(self.update_handle, *invoke_args, **kwargs)
                    return g.get(block=True, timeout=timeout)
                except Timeout:
                    g.kill()
                    logger.warn('Service `%s` timed out (%s)', service.name,
                                self.cid)
                    if raise_timeout:
                        raise
            else:
                return self.update_handle(*invoke_args, **kwargs)
        except Exception, e:
            logger.warn('Could not invoke `%s`, e:`%s`', service.name,
                        format_exc(e))
            raise