Module aws_lambda_powertools.metrics.metrics
Classes
class Metrics (service: str | None = None, namespace: str | None = None, provider: AmazonCloudWatchEMFProvider | None = None)-
Metrics create an CloudWatch EMF object with up to 100 metrics
Use Metrics when you need to create multiple metrics that have dimensions in common (e.g. service_name="payment").
Metrics up to 100 metrics in memory and are shared across all its instances. That means it can be safely instantiated outside of a Lambda function, or anywhere else.
A decorator (log_metrics) is provided so metrics are published at the end of its execution. If more than 100 metrics are added at a given function execution, these metrics are serialized and published before adding a given metric to prevent metric truncation.
Example
Creates a few metrics and publish at the end of a function execution
from aws_lambda_powertools import Metrics metrics = Metrics(namespace="ServerlessAirline", service="payment") @metrics.log_metrics(capture_cold_start_metric=True) def lambda_handler(): metrics.add_metric(name="BookingConfirmation", unit="Count", value=1) metrics.add_dimension(name="function_version", value="$LATEST") return TrueEnvironment Variables
POWERTOOLS_METRICS_NAMESPACE : str metric namespace POWERTOOLS_SERVICE_NAME : str service name used for default dimension
Parameters
service:str, optional- service name to be used as metric dimension, by default "service_undefined"
namespace:str, optional- Namespace for metrics
provider:AmazonCloudWatchEMFProvider, optional- Pre-configured AmazonCloudWatchEMFProvider provider
Raises
MetricUnitError- When metric unit isn't supported by CloudWatch
MetricResolutionError- When metric resolution isn't supported by CloudWatch
MetricValueError- When metric value isn't a number
SchemaValidationError- When metric object fails EMF schema validation
Expand source code
class Metrics: """Metrics create an CloudWatch EMF object with up to 100 metrics Use Metrics when you need to create multiple metrics that have dimensions in common (e.g. service_name="payment"). Metrics up to 100 metrics in memory and are shared across all its instances. That means it can be safely instantiated outside of a Lambda function, or anywhere else. A decorator (log_metrics) is provided so metrics are published at the end of its execution. If more than 100 metrics are added at a given function execution, these metrics are serialized and published before adding a given metric to prevent metric truncation. Example ------- **Creates a few metrics and publish at the end of a function execution** from aws_lambda_powertools import Metrics metrics = Metrics(namespace="ServerlessAirline", service="payment") @metrics.log_metrics(capture_cold_start_metric=True) def lambda_handler(): metrics.add_metric(name="BookingConfirmation", unit="Count", value=1) metrics.add_dimension(name="function_version", value="$LATEST") return True Environment variables --------------------- POWERTOOLS_METRICS_NAMESPACE : str metric namespace POWERTOOLS_SERVICE_NAME : str service name used for default dimension Parameters ---------- service : str, optional service name to be used as metric dimension, by default "service_undefined" namespace : str, optional Namespace for metrics provider: AmazonCloudWatchEMFProvider, optional Pre-configured AmazonCloudWatchEMFProvider provider Raises ------ MetricUnitError When metric unit isn't supported by CloudWatch MetricResolutionError When metric resolution isn't supported by CloudWatch MetricValueError When metric value isn't a number SchemaValidationError When metric object fails EMF schema validation """ # NOTE: We use class attrs to share metrics data across instances # this allows customers to initialize Metrics() throughout their code base (and middlewares) # and not get caught by accident with metrics data loss, or data deduplication # e.g., m1 and m2 add metric ProductCreated, however m1 has 'version' dimension but m2 doesn't # Result: ProductCreated is created twice as we now have 2 different EMF blobs _metrics: Dict[str, Any] = {} _dimensions: Dict[str, str] = {} _metadata: Dict[str, Any] = {} _default_dimensions: Dict[str, Any] = {} def __init__( self, service: str | None = None, namespace: str | None = None, provider: AmazonCloudWatchEMFProvider | None = None, ): self.metric_set = self._metrics self.metadata_set = self._metadata self.default_dimensions = self._default_dimensions self.dimension_set = self._dimensions self.dimension_set.update(**self._default_dimensions) if provider is None: self.provider = AmazonCloudWatchEMFProvider( namespace=namespace, service=service, metric_set=self.metric_set, dimension_set=self.dimension_set, metadata_set=self.metadata_set, default_dimensions=self._default_dimensions, ) else: self.provider = provider def add_metric( self, name: str, unit: MetricUnit | str, value: float, resolution: MetricResolution | int = 60, ) -> None: self.provider.add_metric(name=name, unit=unit, value=value, resolution=resolution) def add_dimension(self, name: str, value: str) -> None: self.provider.add_dimension(name=name, value=value) def serialize_metric_set( self, metrics: Dict | None = None, dimensions: Dict | None = None, metadata: Dict | None = None, ) -> CloudWatchEMFOutput: return self.provider.serialize_metric_set(metrics=metrics, dimensions=dimensions, metadata=metadata) def add_metadata(self, key: str, value: Any) -> None: self.provider.add_metadata(key=key, value=value) def set_timestamp(self, timestamp: int): """ Set the timestamp for the metric. Parameters: ----------- timestamp: int | datetime.datetime The timestamp to create the metric. If an integer is provided, it is assumed to be the epoch time in milliseconds. If a datetime object is provided, it will be converted to epoch time in milliseconds. """ self.provider.set_timestamp(timestamp=timestamp) def flush_metrics(self, raise_on_empty_metrics: bool = False) -> None: self.provider.flush_metrics(raise_on_empty_metrics=raise_on_empty_metrics) def log_metrics( self, lambda_handler: AnyCallableT | None = None, capture_cold_start_metric: bool = False, raise_on_empty_metrics: bool = False, default_dimensions: Dict[str, str] | None = None, **kwargs, ): return self.provider.log_metrics( lambda_handler=lambda_handler, capture_cold_start_metric=capture_cold_start_metric, raise_on_empty_metrics=raise_on_empty_metrics, default_dimensions=default_dimensions, **kwargs, ) def set_default_dimensions(self, **dimensions) -> None: self.provider.set_default_dimensions(**dimensions) """Persist dimensions across Lambda invocations Parameters ---------- dimensions : Dict[str, Any], optional metric dimensions as key=value Example ------- **Sets some default dimensions that will always be present across metrics and invocations** from aws_lambda_powertools import Metrics metrics = Metrics(namespace="ServerlessAirline", service="payment") metrics.set_default_dimensions(environment="demo", another="one") @metrics.log_metrics() def lambda_handler(): return True """ for name, value in dimensions.items(): self.add_dimension(name, value) self.default_dimensions.update(**dimensions) def clear_default_dimensions(self) -> None: self.provider.default_dimensions.clear() self.default_dimensions.clear() def clear_metrics(self) -> None: self.provider.clear_metrics() # We now allow customers to bring their own instance # of the AmazonCloudWatchEMFProvider provider # So we need to define getter/setter for namespace and service properties # To access these attributes on the provider instance. @property def namespace(self): return self.provider.namespace @namespace.setter def namespace(self, namespace): self.provider.namespace = namespace @property def service(self): return self.provider.service @service.setter def service(self, service): self.provider.service = serviceInstance variables
prop namespace-
Expand source code
@property def namespace(self): return self.provider.namespace prop service-
Expand source code
@property def service(self): return self.provider.service
Methods
def add_dimension(self, name: str, value: str) ‑> Nonedef add_metadata(self, key: str, value: Any) ‑> Nonedef add_metric(self, name: str, unit: MetricUnit | str, value: float, resolution: MetricResolution | int = 60) ‑> Nonedef clear_default_dimensions(self) ‑> Nonedef clear_metrics(self) ‑> Nonedef flush_metrics(self, raise_on_empty_metrics: bool = False) ‑> Nonedef log_metrics(self, lambda_handler: AnyCallableT | None = None, capture_cold_start_metric: bool = False, raise_on_empty_metrics: bool = False, default_dimensions: Dict[str, str] | None = None, **kwargs)def serialize_metric_set(self, metrics: Dict | None = None, dimensions: Dict | None = None, metadata: Dict | None = None) ‑> CloudWatchEMFOutputdef set_default_dimensions(self, **dimensions) ‑> Nonedef set_timestamp(self, timestamp: int)-
Set the timestamp for the metric.
Parameters:
timestamp: int | datetime.datetime The timestamp to create the metric. If an integer is provided, it is assumed to be the epoch time in milliseconds. If a datetime object is provided, it will be converted to epoch time in milliseconds.