Ejemplo n.º 1
0
  def test_get_heron_options_from_env(self):
    test_value = "cmdline.key.1=/tmp/directory,cmdline.with.space=hello%%%%world"
    expecting = {"cmdline.key.1": "/tmp/directory", "cmdline.with.space": "hello world"}
    os.environ["HERON_OPTIONS"] = test_value
    ret = TopologyType.get_heron_options_from_env()
    self.assertEqual(ret, expecting)

    # error
    os.environ.pop("HERON_OPTIONS")
    with self.assertRaises(RuntimeError):
      TopologyType.get_heron_options_from_env()
Ejemplo n.º 2
0
    def create_topology(self):
        """Creates an integration-test topology class"""

        # first add the aggregation_bolt
        # inputs will be updated later
        aggregator_config = {
            integ_const.HTTP_POST_URL_KEY: self.output_location
        }
        self.add_bolt(self.TERMINAL_BOLT_NAME,
                      self.TERMINAL_BOLT_CLASS,
                      1,
                      inputs={},
                      config=aggregator_config)

        # building a graph directed from children to parents, by looking only on bolts
        # since spouts don't have parents
        for name, bolt_spec in self.bolts.iteritems():
            if name == self.TERMINAL_BOLT_NAME:
                continue

            bolt_protobuf = bolt_spec.get_protobuf()
            for istream in bolt_protobuf.inputs:
                parent = istream.stream.component_name
                if name in self.prev:
                    self.prev[name].add(parent)
                else:
                    parents = set()
                    parents.add(parent)
                    self.prev[name] = parents

        # Find the terminal bolts defined by users and link them with "AggregatorBolt".

        # set of terminal component names
        terminals = set()
        # set of non-terminal component names
        non_terminals = set()
        # 1. terminal bolts need upstream components, because we don't want isolated bolts
        # 2. terminal bolts should not exist in the prev.values(), meaning that no downstream
        for parent_set in self.prev.values():
            non_terminals.update(parent_set)

        for bolt_name in self.prev.keys():
            if bolt_name not in non_terminals:
                terminals.add(bolt_name)

        # will also consider the cases with spouts without children
        for spout_name in self.spouts.keys():
            if spout_name not in non_terminals:
                terminals.add(spout_name)

        # add all grouping to components
        for child in self.prev.keys():
            for parent in self.prev[child]:
                self._add_all_grouping(
                    child, parent,
                    integ_const.INTEGRATION_TEST_CONTROL_STREAM_ID)

        # then connect aggregator bolt with user's terminal components
        # terminal_outputs are output fields for terminals, list of either str or Stream
        for terminal in terminals:
            if terminal in self.bolts:
                terminal_outputs = self.bolts[terminal].outputs
            else:
                terminal_outputs = self.spouts[terminal].outputs

            # now get a set of stream ids
            stream_ids = [
                "default" if isinstance(out, str) else out.stream_id
                for out in terminal_outputs
            ]
            for stream_id in set(stream_ids):
                self._add_all_grouping(self.TERMINAL_BOLT_NAME, terminal,
                                       stream_id)

        # create topology class
        class_dict = self._construct_topo_class_dict()
        return TopologyType(self.topology_name, (Topology, ), class_dict)
Ejemplo n.º 3
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  def test_sanitize_config(self):
    # non-string key
    with self.assertRaises(TypeError):
      TopologyType._sanitize_config({['k', 'e', 'y']: "value"})
    with self.assertRaises(TypeError):
      TopologyType._sanitize_config({None: "value"})

    # convert boolean value
    ret = TopologyType._sanitize_config({"key": True})
    self.assertEqual(ret["key"], "true")
    ret = TopologyType._sanitize_config({"key": False})
    self.assertEqual(ret["key"], "false")

    # convert int and float
    ret = TopologyType._sanitize_config({"key": 10})
    self.assertEqual(ret["key"], "10")
    ret = TopologyType._sanitize_config({"key": -2400000})
    self.assertEqual(ret["key"], "-2400000")
    ret = TopologyType._sanitize_config({"key": 0.0000001})
    self.assertEqual(ret["key"], "1e-07")
    ret = TopologyType._sanitize_config({"key": -15.33333})
    self.assertEqual(ret["key"], "-15.33333")

    # non-string value -> should expect the same object
    ret = TopologyType._sanitize_config({"key": ['v', 'a', 'l', 'u', 'e']})
    self.assertEqual(ret["key"], ['v', 'a', 'l', 'u', 'e'])
    ret = TopologyType._sanitize_config({"key": None})
    self.assertEqual(ret["key"], None)
Ejemplo n.º 4
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 def test_add_bolt_specs(self):
   spec = HeronComponentSpec("bolt", "bl_cls", False, 1)
   with self.assertRaises(ValueError):
     TopologyType.add_bolt_specs(spec, {})
Ejemplo n.º 5
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 def test_add_spout_specs(self):
   # spout with no output
   spec = HeronComponentSpec("spout", "sp_cls", True, 1)
   with self.assertRaises(ValueError):
     TopologyType.add_spout_specs(spec, {})
Ejemplo n.º 6
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 def test_class_dict_to_specs(self):
   # duplicate component name
   class_dict = {"spout": HeronComponentSpec("same_name", "sp_cls", True, 1),
                 "bolt": HeronComponentSpec("same_name", "bl_cls", False, 2)}
   with self.assertRaises(ValueError):
     TopologyType.class_dict_to_specs(class_dict)