Module aws_lambda_powertools.logging
Logging utility
Expand source code
"""Logging utility
"""
from .logger import Logger
__all__ = ["Logger"]
Sub-modules
aws_lambda_powertools.logging.compat
-
Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work.
aws_lambda_powertools.logging.correlation_paths
-
Built-in correlation paths
aws_lambda_powertools.logging.exceptions
aws_lambda_powertools.logging.filters
aws_lambda_powertools.logging.formatter
aws_lambda_powertools.logging.formatters
-
Built-in Logger formatters for Observability Providers that require custom config.
aws_lambda_powertools.logging.lambda_context
aws_lambda_powertools.logging.logger
aws_lambda_powertools.logging.types
aws_lambda_powertools.logging.utils
Classes
class Logger (service: Optional[str] = None, level: Union[str, int, None] = None, child: bool = False, sampling_rate: Optional[float] = None, stream: Optional[IO[str]] = None, logger_formatter: Optional[PowertoolsFormatter] = None, logger_handler: Optional[logging.Handler] = None, log_uncaught_exceptions: bool = False, json_serializer: Optional[Callable[[Dict], str]] = None, json_deserializer: Optional[Callable[[Union[Dict, str, bool, int, float]], str]] = None, json_default: Optional[Callable[[Any], Any]] = None, datefmt: Optional[str] = None, use_datetime_directive: bool = False, log_record_order: Optional[List[str]] = None, utc: bool = False, use_rfc3339: bool = False, serialize_stacktrace: bool = True, **kwargs)
-
Creates and setups a logger to format statements in JSON.
Includes service name and any additional key=value into logs It also accepts both service name or level explicitly via env vars
Environment Variables
POWERTOOLS_SERVICE_NAME : str service name LOG_LEVEL: str logging level (e.g. INFO, DEBUG) POWERTOOLS_LOGGER_SAMPLE_RATE: float sampling rate ranging from 0 to 1, 1 being 100% sampling
Parameters
service
:str
, optional- service name to be appended in logs, by default "service_undefined"
level
:str, int optional
- The level to set. Can be a string representing the level name: 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL' or an integer representing the level value: 10 for 'DEBUG', 20 for 'INFO', 30 for 'WARNING', 40 for 'ERROR', 50 for 'CRITICAL'. by default "INFO"
child
:bool
, optional- create a child Logger named
. , False by default sample_rate
:float
, optional- sample rate for debug calls within execution context defaults to 0.0
stream
:sys.stdout
, optional- valid output for a logging stream, by default sys.stdout
logger_formatter
:PowertoolsFormatter
, optional- custom logging formatter that implements PowertoolsFormatter
logger_handler
:logging.Handler
, optional- custom logging handler e.g. logging.FileHandler("file.log")
log_uncaught_exceptions
:bool, by default False
-
logs uncaught exception using sys.excepthook
See: https://docs.python.org/3/library/sys.html#sys.excepthook
Parameters Propagated To Lambdapowertoolsformatter
datefmt: str, optional String directives (strftime) to format log timestamp using
time
, by default it uses 2021-05-03 11:47:12,494+0200. use_datetime_directive: bool, optional Interpretdatefmt
as a format string fordatetime.datetime.strftime
, rather thantime.strftime
.See <https://docs.python.org/3/library/datetime.html#strftime-strptime-behavior> . This also supports a custom %F directive for milliseconds.
use_rfc3339: bool, optional Whether to use a popular date format that complies with both RFC3339 and ISO8601. e.g., 2022-10-27T16:27:43.738+02:00. json_serializer : Callable, optional function to serialize
obj
to a JSON formattedstr
, by default json.dumps json_deserializer : Callable, optional function to deserializestr
,bytes
, bytearraycontaining a JSON document to a Python
obj`, by default json.loads json_default : Callable, optional function to coerce unserializable values, by defaultstr()
Only used when no custom formatter is set
utc : bool, optional set logging timestamp to UTC, by default False to continue to use local time as per stdlib log_record_order : list, optional set order of log keys when logging, by default ["level", "location", "message", "timestamp"]
Example
Setups structured logging in JSON for Lambda functions with explicit service name
>>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> def handler(event, context): logger.info("Hello")
Setups structured logging in JSON for Lambda functions using env vars
$ export POWERTOOLS_SERVICE_NAME="payment" $ export POWERTOOLS_LOGGER_SAMPLE_RATE=0.01 # 1% debug sampling >>> from aws_lambda_powertools import Logger >>> logger = Logger() >>> >>> def handler(event, context): logger.info("Hello")
Append payment_id to previously setup logger
>>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> def handler(event, context): logger.append_keys(payment_id=event["payment_id"]) logger.info("Hello")
Create child Logger using logging inheritance via child param
>>> # app.py >>> import another_file >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> # another_file.py >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment", child=True)
Logging in UTC timezone
>>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", utc=True)
Brings message as the first key in log statements
>>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", log_record_order=["message"])
Logging to a file instead of standard output for testing
>>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", logger_handler=logging.FileHandler("log.json"))
Raises
InvalidLoggerSamplingRateError
- When sampling rate provided is not a float
Expand source code
class Logger: """Creates and setups a logger to format statements in JSON. Includes service name and any additional key=value into logs It also accepts both service name or level explicitly via env vars Environment variables --------------------- POWERTOOLS_SERVICE_NAME : str service name LOG_LEVEL: str logging level (e.g. INFO, DEBUG) POWERTOOLS_LOGGER_SAMPLE_RATE: float sampling rate ranging from 0 to 1, 1 being 100% sampling Parameters ---------- service : str, optional service name to be appended in logs, by default "service_undefined" level : str, int optional The level to set. Can be a string representing the level name: 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL' or an integer representing the level value: 10 for 'DEBUG', 20 for 'INFO', 30 for 'WARNING', 40 for 'ERROR', 50 for 'CRITICAL'. by default "INFO" child: bool, optional create a child Logger named <service>.<caller_file_name>, False by default sample_rate: float, optional sample rate for debug calls within execution context defaults to 0.0 stream: sys.stdout, optional valid output for a logging stream, by default sys.stdout logger_formatter: PowertoolsFormatter, optional custom logging formatter that implements PowertoolsFormatter logger_handler: logging.Handler, optional custom logging handler e.g. logging.FileHandler("file.log") log_uncaught_exceptions: bool, by default False logs uncaught exception using sys.excepthook See: https://docs.python.org/3/library/sys.html#sys.excepthook Parameters propagated to LambdaPowertoolsFormatter -------------------------------------------------- datefmt: str, optional String directives (strftime) to format log timestamp using `time`, by default it uses 2021-05-03 11:47:12,494+0200. use_datetime_directive: bool, optional Interpret `datefmt` as a format string for `datetime.datetime.strftime`, rather than `time.strftime`. See https://docs.python.org/3/library/datetime.html#strftime-strptime-behavior . This also supports a custom %F directive for milliseconds. use_rfc3339: bool, optional Whether to use a popular date format that complies with both RFC3339 and ISO8601. e.g., 2022-10-27T16:27:43.738+02:00. json_serializer : Callable, optional function to serialize `obj` to a JSON formatted `str`, by default json.dumps json_deserializer : Callable, optional function to deserialize `str`, `bytes`, bytearray` containing a JSON document to a Python `obj`, by default json.loads json_default : Callable, optional function to coerce unserializable values, by default `str()` Only used when no custom formatter is set utc : bool, optional set logging timestamp to UTC, by default False to continue to use local time as per stdlib log_record_order : list, optional set order of log keys when logging, by default ["level", "location", "message", "timestamp"] Example ------- **Setups structured logging in JSON for Lambda functions with explicit service name** >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> def handler(event, context): logger.info("Hello") **Setups structured logging in JSON for Lambda functions using env vars** $ export POWERTOOLS_SERVICE_NAME="payment" $ export POWERTOOLS_LOGGER_SAMPLE_RATE=0.01 # 1% debug sampling >>> from aws_lambda_powertools import Logger >>> logger = Logger() >>> >>> def handler(event, context): logger.info("Hello") **Append payment_id to previously setup logger** >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> def handler(event, context): logger.append_keys(payment_id=event["payment_id"]) logger.info("Hello") **Create child Logger using logging inheritance via child param** >>> # app.py >>> import another_file >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment") >>> >>> # another_file.py >>> from aws_lambda_powertools import Logger >>> logger = Logger(service="payment", child=True) **Logging in UTC timezone** >>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", utc=True) **Brings message as the first key in log statements** >>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", log_record_order=["message"]) **Logging to a file instead of standard output for testing** >>> # app.py >>> import logging >>> from aws_lambda_powertools import Logger >>> >>> logger = Logger(service="payment", logger_handler=logging.FileHandler("log.json")) Raises ------ InvalidLoggerSamplingRateError When sampling rate provided is not a float """ # noqa: E501 def __init__( self, service: Optional[str] = None, level: Union[str, int, None] = None, child: bool = False, sampling_rate: Optional[float] = None, stream: Optional[IO[str]] = None, logger_formatter: Optional[PowertoolsFormatter] = None, logger_handler: Optional[logging.Handler] = None, log_uncaught_exceptions: bool = False, json_serializer: Optional[Callable[[Dict], str]] = None, json_deserializer: Optional[Callable[[Union[Dict, str, bool, int, float]], str]] = None, json_default: Optional[Callable[[Any], Any]] = None, datefmt: Optional[str] = None, use_datetime_directive: bool = False, log_record_order: Optional[List[str]] = None, utc: bool = False, use_rfc3339: bool = False, serialize_stacktrace: bool = True, **kwargs, ) -> None: self.service = resolve_env_var_choice( choice=service, env=os.getenv(constants.SERVICE_NAME_ENV, "service_undefined"), ) self.sampling_rate = resolve_env_var_choice( choice=sampling_rate, env=os.getenv(constants.LOGGER_LOG_SAMPLING_RATE), ) self.child = child self.logger_formatter = logger_formatter self._stream = stream or sys.stdout self.logger_handler = logger_handler or logging.StreamHandler(self._stream) self.log_uncaught_exceptions = log_uncaught_exceptions self._is_deduplication_disabled = resolve_truthy_env_var_choice( env=os.getenv(constants.LOGGER_LOG_DEDUPLICATION_ENV, "false"), ) self._default_log_keys = {"service": self.service, "sampling_rate": self.sampling_rate} self._logger = self._get_logger() # NOTE: This is primarily to improve UX, so IDEs can autocomplete LambdaPowertoolsFormatter options # previously, we masked all of them as kwargs thus limiting feature discovery formatter_options = { "json_serializer": json_serializer, "json_deserializer": json_deserializer, "json_default": json_default, "datefmt": datefmt, "use_datetime_directive": use_datetime_directive, "log_record_order": log_record_order, "utc": utc, "use_rfc3339": use_rfc3339, "serialize_stacktrace": serialize_stacktrace, } self._init_logger(formatter_options=formatter_options, log_level=level, **kwargs) if self.log_uncaught_exceptions: logger.debug("Replacing exception hook") sys.excepthook = functools.partial(log_uncaught_exception_hook, logger=self) # Prevent __getattr__ from shielding unknown attribute errors in type checkers # https://github.com/aws-powertools/powertools-lambda-python/issues/1660 if not TYPE_CHECKING: def __getattr__(self, name): # Proxy attributes not found to actual logger to support backward compatibility # https://github.com/aws-powertools/powertools-lambda-python/issues/97 return getattr(self._logger, name) def _get_logger(self) -> logging.Logger: """Returns a Logger named {self.service}, or {self.service.filename} for child loggers""" logger_name = self.service if self.child: logger_name = f"{self.service}.{_get_caller_filename()}" return logging.getLogger(logger_name) def _init_logger( self, formatter_options: Optional[Dict] = None, log_level: Union[str, int, None] = None, **kwargs, ) -> None: """Configures new logger""" # Skip configuration if it's a child logger or a pre-configured logger # to prevent the following: # a) multiple handlers being attached # b) different sampling mechanisms # c) multiple messages from being logged as handlers can be duplicated is_logger_preconfigured = getattr(self._logger, "init", False) if self.child or is_logger_preconfigured: return self.setLevel(self._determine_log_level(log_level)) self._configure_sampling() self.addHandler(self.logger_handler) self.structure_logs(formatter_options=formatter_options, **kwargs) # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work self._logger.findCaller = compat.findCaller # type: ignore[method-assign] # Pytest Live Log feature duplicates log records for colored output # but we explicitly add a filter for log deduplication. # This flag disables this protection when you explicit want logs to be duplicated (#262) if not self._is_deduplication_disabled: logger.debug("Adding filter in root logger to suppress child logger records to bubble up") for handler in logging.root.handlers: # It'll add a filter to suppress any child logger from self.service # Example: `Logger(service="order")`, where service is Order # It'll reject all loggers starting with `order` e.g. order.checkout, order.shared handler.addFilter(SuppressFilter(self.service)) # as per bug in #249, we should not be pre-configuring an existing logger # therefore we set a custom attribute in the Logger that will be returned # std logging will return the same Logger with our attribute if name is reused logger.debug(f"Marking logger {self.service} as preconfigured") self._logger.init = True # type: ignore[attr-defined] def _configure_sampling(self) -> None: """Dynamically set log level based on sampling rate Raises ------ InvalidLoggerSamplingRateError When sampling rate provided is not a float """ try: if self.sampling_rate and random.random() <= float(self.sampling_rate): logger.debug("Setting log level to Debug due to sampling rate") self._logger.setLevel(logging.DEBUG) except ValueError: raise InvalidLoggerSamplingRateError( ( f"Expected a float value ranging 0 to 1, but received {self.sampling_rate} instead." "Please review POWERTOOLS_LOGGER_SAMPLE_RATE environment variable." ), ) @overload def inject_lambda_context( self, lambda_handler: AnyCallableT, log_event: Optional[bool] = None, correlation_id_path: Optional[str] = None, clear_state: Optional[bool] = False, ) -> AnyCallableT: ... @overload def inject_lambda_context( self, lambda_handler: None = None, log_event: Optional[bool] = None, correlation_id_path: Optional[str] = None, clear_state: Optional[bool] = False, ) -> Callable[[AnyCallableT], AnyCallableT]: ... def inject_lambda_context( self, lambda_handler: Optional[AnyCallableT] = None, log_event: Optional[bool] = None, correlation_id_path: Optional[str] = None, clear_state: Optional[bool] = False, ) -> Any: """Decorator to capture Lambda contextual info and inject into logger Parameters ---------- clear_state : bool, optional Instructs logger to remove any custom keys previously added lambda_handler : Callable Method to inject the lambda context log_event : bool, optional Instructs logger to log Lambda Event, by default False correlation_id_path: str, optional Optional JMESPath for the correlation_id Environment variables --------------------- POWERTOOLS_LOGGER_LOG_EVENT : str instruct logger to log Lambda Event (e.g. `"true", "True", "TRUE"`) Example ------- **Captures Lambda contextual runtime info (e.g memory, arn, req_id)** from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context def handler(event, context): logger.info("Hello") **Captures Lambda contextual runtime info and logs incoming request** from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context(log_event=True) def handler(event, context): logger.info("Hello") Returns ------- decorate : Callable Decorated lambda handler """ # If handler is None we've been called with parameters # Return a partial function with args filled if lambda_handler is None: logger.debug("Decorator called with parameters") return functools.partial( self.inject_lambda_context, log_event=log_event, correlation_id_path=correlation_id_path, clear_state=clear_state, ) log_event = resolve_truthy_env_var_choice( env=os.getenv(constants.LOGGER_LOG_EVENT_ENV, "false"), choice=log_event, ) @functools.wraps(lambda_handler) def decorate(event, context, *args, **kwargs): lambda_context = build_lambda_context_model(context) cold_start = _is_cold_start() if clear_state: self.structure_logs(cold_start=cold_start, **lambda_context.__dict__) else: self.append_keys(cold_start=cold_start, **lambda_context.__dict__) if correlation_id_path: self.set_correlation_id(jmespath.search(correlation_id_path, event)) if log_event: logger.debug("Event received") self.info(extract_event_from_common_models(event)) return lambda_handler(event, context, *args, **kwargs) return decorate def info( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.info(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.info( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def error( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.error(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.error( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def exception( self, msg: object, *args, exc_info=True, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.exception(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.exception( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def critical( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.critical(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.critical( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def warning( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.warning(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.warning( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def debug( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.debug(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.debug( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, ) def append_keys(self, **additional_keys) -> None: self.registered_formatter.append_keys(**additional_keys) def remove_keys(self, keys: Iterable[str]) -> None: self.registered_formatter.remove_keys(keys) def structure_logs(self, append: bool = False, formatter_options: Optional[Dict] = None, **keys) -> None: """Sets logging formatting to JSON. Optionally, it can append keyword arguments to an existing logger, so it is available across future log statements. Last keyword argument and value wins if duplicated. Parameters ---------- append : bool, optional append keys provided to logger formatter, by default False formatter_options : dict, optional LambdaPowertoolsFormatter options to be propagated, by default {} """ formatter_options = formatter_options or {} # There are 3 operational modes for this method ## 1. Register a Powertools for AWS Lambda (Python) Formatter for the first time ## 2. Append new keys to the current logger formatter; deprecated in favour of append_keys ## 3. Add new keys and discard existing to the registered formatter # Mode 1 log_keys = {**self._default_log_keys, **keys} is_logger_preconfigured = getattr(self._logger, "init", False) if not is_logger_preconfigured: formatter = self.logger_formatter or LambdaPowertoolsFormatter(**formatter_options, **log_keys) self.registered_handler.setFormatter(formatter) # when using a custom Powertools for AWS Lambda (Python) Formatter # standard and custom keys that are not Powertools for AWS Lambda (Python) Formatter parameters # should be appended and custom keys that might happen to be Powertools for AWS Lambda (Python) # Formatter parameters should be discarded this prevents adding them as custom keys, for example, # `json_default=<callable>` see https://github.com/aws-powertools/powertools-lambda-python/issues/1263 custom_keys = {k: v for k, v in log_keys.items() if k not in RESERVED_FORMATTER_CUSTOM_KEYS} return self.registered_formatter.append_keys(**custom_keys) # Mode 2 (legacy) if append: # Maintenance: Add deprecation warning for major version return self.append_keys(**keys) # Mode 3 self.registered_formatter.clear_state() self.registered_formatter.append_keys(**log_keys) def set_correlation_id(self, value: Optional[str]) -> None: """Sets the correlation_id in the logging json Parameters ---------- value : str, optional Value for the correlation id. None will remove the correlation_id """ self.append_keys(correlation_id=value) def get_correlation_id(self) -> Optional[str]: """Gets the correlation_id in the logging json Returns ------- str, optional Value for the correlation id """ if isinstance(self.registered_formatter, LambdaPowertoolsFormatter): return self.registered_formatter.log_format.get("correlation_id") return None def setLevel(self, level: Union[str, int]) -> None: return self._logger.setLevel(level) def addHandler(self, handler: logging.Handler) -> None: return self._logger.addHandler(handler) @property def registered_handler(self) -> logging.Handler: """Convenience property to access the first logger handler""" # We ignore mypy here because self.child encodes whether or not self._logger.parent is # None, mypy can't see this from context but we can handlers = self._logger.parent.handlers if self.child else self._logger.handlers # type: ignore[union-attr] return handlers[0] @property def registered_formatter(self) -> BasePowertoolsFormatter: """Convenience property to access the first logger formatter""" return self.registered_handler.formatter # type: ignore[return-value] @property def log_level(self) -> int: return self._logger.level @property def name(self) -> str: return self._logger.name @property def handlers(self) -> List[logging.Handler]: """List of registered logging handlers Notes ----- Looking for the first configured handler? Use registered_handler property instead. """ return self._logger.handlers @staticmethod def _determine_log_level(level: Union[str, int, None]) -> Union[str, int]: """Returns preferred log level set by the customer in upper case""" if isinstance(level, int): return level log_level: Optional[str] = level or os.getenv("LOG_LEVEL") if log_level is None: return logging.INFO return log_level.upper()
Instance variables
var handlers : List[logging.Handler]
-
List of registered logging handlers
Notes
Looking for the first configured handler? Use registered_handler property instead.
Expand source code
@property def handlers(self) -> List[logging.Handler]: """List of registered logging handlers Notes ----- Looking for the first configured handler? Use registered_handler property instead. """ return self._logger.handlers
var log_level : int
-
Expand source code
@property def log_level(self) -> int: return self._logger.level
var name : str
-
Expand source code
@property def name(self) -> str: return self._logger.name
var registered_formatter : BasePowertoolsFormatter
-
Convenience property to access the first logger formatter
Expand source code
@property def registered_formatter(self) -> BasePowertoolsFormatter: """Convenience property to access the first logger formatter""" return self.registered_handler.formatter # type: ignore[return-value]
var registered_handler : logging.Handler
-
Convenience property to access the first logger handler
Expand source code
@property def registered_handler(self) -> logging.Handler: """Convenience property to access the first logger handler""" # We ignore mypy here because self.child encodes whether or not self._logger.parent is # None, mypy can't see this from context but we can handlers = self._logger.parent.handlers if self.child else self._logger.handlers # type: ignore[union-attr] return handlers[0]
Methods
def addHandler(self, handler: logging.Handler) ‑> None
-
Expand source code
def addHandler(self, handler: logging.Handler) -> None: return self._logger.addHandler(handler)
def append_keys(self, **additional_keys) ‑> None
-
Expand source code
def append_keys(self, **additional_keys) -> None: self.registered_formatter.append_keys(**additional_keys)
def critical(self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def critical( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.critical(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.critical( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )
def debug(self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def debug( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.debug(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.debug( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )
def error(self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def error( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.error(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.error( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )
def exception(self, msg: object, *args, exc_info=True, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def exception( self, msg: object, *args, exc_info=True, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.exception(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.exception( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )
def get_correlation_id(self) ‑> Optional[str]
-
Gets the correlation_id in the logging json
Returns
str
, optional- Value for the correlation id
Expand source code
def get_correlation_id(self) -> Optional[str]: """Gets the correlation_id in the logging json Returns ------- str, optional Value for the correlation id """ if isinstance(self.registered_formatter, LambdaPowertoolsFormatter): return self.registered_formatter.log_format.get("correlation_id") return None
def info(self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def info( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.info(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.info( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )
def inject_lambda_context(self, lambda_handler: Optional[AnyCallableT] = None, log_event: Optional[bool] = None, correlation_id_path: Optional[str] = None, clear_state: Optional[bool] = False) ‑> Any
-
Decorator to capture Lambda contextual info and inject into logger
Parameters
clear_state
:bool
, optional- Instructs logger to remove any custom keys previously added
lambda_handler
:Callable
- Method to inject the lambda context
log_event
:bool
, optional- Instructs logger to log Lambda Event, by default False
correlation_id_path
:str
, optional- Optional JMESPath for the correlation_id
Environment Variables
POWERTOOLS_LOGGER_LOG_EVENT : str instruct logger to log Lambda Event (e.g.
"true", "True", "TRUE"
)Example
Captures Lambda contextual runtime info (e.g memory, arn, req_id)
from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context def handler(event, context): logger.info("Hello")
Captures Lambda contextual runtime info and logs incoming request
from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context(log_event=True) def handler(event, context): logger.info("Hello")
Returns
decorate
:Callable
- Decorated lambda handler
Expand source code
def inject_lambda_context( self, lambda_handler: Optional[AnyCallableT] = None, log_event: Optional[bool] = None, correlation_id_path: Optional[str] = None, clear_state: Optional[bool] = False, ) -> Any: """Decorator to capture Lambda contextual info and inject into logger Parameters ---------- clear_state : bool, optional Instructs logger to remove any custom keys previously added lambda_handler : Callable Method to inject the lambda context log_event : bool, optional Instructs logger to log Lambda Event, by default False correlation_id_path: str, optional Optional JMESPath for the correlation_id Environment variables --------------------- POWERTOOLS_LOGGER_LOG_EVENT : str instruct logger to log Lambda Event (e.g. `"true", "True", "TRUE"`) Example ------- **Captures Lambda contextual runtime info (e.g memory, arn, req_id)** from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context def handler(event, context): logger.info("Hello") **Captures Lambda contextual runtime info and logs incoming request** from aws_lambda_powertools import Logger logger = Logger(service="payment") @logger.inject_lambda_context(log_event=True) def handler(event, context): logger.info("Hello") Returns ------- decorate : Callable Decorated lambda handler """ # If handler is None we've been called with parameters # Return a partial function with args filled if lambda_handler is None: logger.debug("Decorator called with parameters") return functools.partial( self.inject_lambda_context, log_event=log_event, correlation_id_path=correlation_id_path, clear_state=clear_state, ) log_event = resolve_truthy_env_var_choice( env=os.getenv(constants.LOGGER_LOG_EVENT_ENV, "false"), choice=log_event, ) @functools.wraps(lambda_handler) def decorate(event, context, *args, **kwargs): lambda_context = build_lambda_context_model(context) cold_start = _is_cold_start() if clear_state: self.structure_logs(cold_start=cold_start, **lambda_context.__dict__) else: self.append_keys(cold_start=cold_start, **lambda_context.__dict__) if correlation_id_path: self.set_correlation_id(jmespath.search(correlation_id_path, event)) if log_event: logger.debug("Event received") self.info(extract_event_from_common_models(event)) return lambda_handler(event, context, *args, **kwargs) return decorate
def remove_keys(self, keys: Iterable[str]) ‑> None
-
Expand source code
def remove_keys(self, keys: Iterable[str]) -> None: self.registered_formatter.remove_keys(keys)
def setLevel(self, level: Union[str, int]) ‑> None
-
Expand source code
def setLevel(self, level: Union[str, int]) -> None: return self._logger.setLevel(level)
def set_correlation_id(self, value: Optional[str]) ‑> None
-
Sets the correlation_id in the logging json
Parameters
value
:str
, optional- Value for the correlation id. None will remove the correlation_id
Expand source code
def set_correlation_id(self, value: Optional[str]) -> None: """Sets the correlation_id in the logging json Parameters ---------- value : str, optional Value for the correlation id. None will remove the correlation_id """ self.append_keys(correlation_id=value)
def structure_logs(self, append: bool = False, formatter_options: Optional[Dict] = None, **keys) ‑> None
-
Sets logging formatting to JSON.
Optionally, it can append keyword arguments to an existing logger, so it is available across future log statements.
Last keyword argument and value wins if duplicated.
Parameters
append
:bool
, optional- append keys provided to logger formatter, by default False
formatter_options
:dict
, optional- LambdaPowertoolsFormatter options to be propagated, by default {}
Expand source code
def structure_logs(self, append: bool = False, formatter_options: Optional[Dict] = None, **keys) -> None: """Sets logging formatting to JSON. Optionally, it can append keyword arguments to an existing logger, so it is available across future log statements. Last keyword argument and value wins if duplicated. Parameters ---------- append : bool, optional append keys provided to logger formatter, by default False formatter_options : dict, optional LambdaPowertoolsFormatter options to be propagated, by default {} """ formatter_options = formatter_options or {} # There are 3 operational modes for this method ## 1. Register a Powertools for AWS Lambda (Python) Formatter for the first time ## 2. Append new keys to the current logger formatter; deprecated in favour of append_keys ## 3. Add new keys and discard existing to the registered formatter # Mode 1 log_keys = {**self._default_log_keys, **keys} is_logger_preconfigured = getattr(self._logger, "init", False) if not is_logger_preconfigured: formatter = self.logger_formatter or LambdaPowertoolsFormatter(**formatter_options, **log_keys) self.registered_handler.setFormatter(formatter) # when using a custom Powertools for AWS Lambda (Python) Formatter # standard and custom keys that are not Powertools for AWS Lambda (Python) Formatter parameters # should be appended and custom keys that might happen to be Powertools for AWS Lambda (Python) # Formatter parameters should be discarded this prevents adding them as custom keys, for example, # `json_default=<callable>` see https://github.com/aws-powertools/powertools-lambda-python/issues/1263 custom_keys = {k: v for k, v in log_keys.items() if k not in RESERVED_FORMATTER_CUSTOM_KEYS} return self.registered_formatter.append_keys(**custom_keys) # Mode 2 (legacy) if append: # Maintenance: Add deprecation warning for major version return self.append_keys(**keys) # Mode 3 self.registered_formatter.clear_state() self.registered_formatter.append_keys(**log_keys)
def warning(self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs) ‑> None
-
Expand source code
def warning( self, msg: object, *args, exc_info=None, stack_info: bool = False, stacklevel: int = 2, extra: Optional[Mapping[str, object]] = None, **kwargs, ) -> None: extra = extra or {} extra = {**extra, **kwargs} # Maintenance: We can drop this upon Py3.7 EOL. It's a backport for "location" key to work if sys.version_info < (3, 8): # pragma: no cover return self._logger.warning(msg, *args, exc_info=exc_info, stack_info=stack_info, extra=extra) return self._logger.warning( msg, *args, exc_info=exc_info, stack_info=stack_info, stacklevel=stacklevel, extra=extra, )