async def test_configure_context_adds_ec2_metadata_props(aresponses):
    # arrange
    image_id = fake.word()
    instance_id = fake.word()
    instance_type = fake.word()
    private_ip = fake.ipv4()
    az = fake.word()

    configure_response(
        aresponses,
        json.dumps({
            "imageId": image_id,
            "instanceId": instance_id,
            "instanceType": instance_type,
            "privateIp": private_ip,
            "availabilityZone": az,
        }),
    )
    env = EC2Environment()
    context = MetricsContext.empty()

    # environment MUST be detected before we can access the metadata
    await env.probe()

    # act
    env.configure_context(context)

    # assert
    assert context.properties["imageId"] == image_id
    assert context.properties["instanceId"] == instance_id
    assert context.properties["instanceType"] == instance_type
    assert context.properties["privateIp"] == private_ip
    assert context.properties["availabilityZone"] == az
Exemplo n.º 2
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 def __init__(
     self,
     resolve_environment: Callable[..., Awaitable[Environment]],
     context: MetricsContext = None,
 ):
     self.resolve_environment = resolve_environment
     self.context: MetricsContext = context or MetricsContext.empty()
Exemplo n.º 3
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    async def flush(self) -> None:
        # resolve the environment and get the sink
        # MOST of the time this will run synchonrously
        # This only runs asynchronously if executing for the
        # first time in a non-lambda environment
        environment = await self.resolve_environment()

        self.__configureContextForEnvironment(environment)
        sink = environment.get_sink()

        # accept and reset the context
        sink.accept(self.context)
        self.context = MetricsContext.empty()
def test_accept_writes_multiple_messages_to_stdout(mock_serializer, capfd):
    # arrange
    expected_messages = [fake.word() for _ in range(10)]
    mock_serializer.serialize.return_value = expected_messages
    sink = StdoutSink(serializer=mock_serializer)
    context = MetricsContext.empty()
    context.meta["Timestamp"] = 1

    # act
    sink.accept(context)

    # assert
    out, err = capfd.readouterr()
    assert len(out.split()) == len(expected_messages)
    assert out.split() == expected_messages
def test_accept_writes_to_stdout(capfd):
    # arrange
    sink = LambdaSink()
    context = MetricsContext.empty()
    context.meta["Timestamp"] = 1

    # act
    sink.accept(context)

    # assert
    out, err = capfd.readouterr()
    assert (
        out
        == '{"_aws": {"Timestamp": 1, "CloudWatchMetrics": [{"Dimensions": [], "Metrics": [], "Namespace": "aws-embedded-metrics"}]}}\n'
    )
Exemplo n.º 6
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def test_more_than_max_number_of_metrics(mock_get_socket_client):
    # arrange
    context = MetricsContext.empty()
    expected_metrics = 401
    expected_send_message_calls = 5
    for index in range(expected_metrics):
        context.put_metric(f"{index}", 1)

    mock_tcp_client = Mock()
    mock_get_socket_client.return_value = mock_tcp_client

    # act
    sink = AgentSink("")
    sink.accept(context)

    # assert
    assert expected_send_message_calls == mock_tcp_client.send_message.call_count
def test_accept_writes_to_stdout(capfd):
    # arrange
    reload(config)

    sink = StdoutSink()
    context = MetricsContext.empty()
    context.meta["Timestamp"] = 1
    context.put_metric("Dummy", 1)

    # act
    sink.accept(context)

    # assert
    out, err = capfd.readouterr()
    assert (
        out
        == '{"_aws": {"Timestamp": 1, "CloudWatchMetrics": [{"Dimensions": [], "Metrics": [{"Name": "Dummy", "Unit": "None"}], '
           '"Namespace": "aws-embedded-metrics"}]}, "Dummy": 1}\n'
    )
def get_context():
    context = MetricsContext.empty()
    context.meta["Timestamp"] = 0
    return context
def create_metrics_logger() -> MetricsLogger:
    context = MetricsContext.empty()
    logger = MetricsLogger(resolve_environment, context)
    return logger