Module aws_lambda_powertools.utilities.data_masking.provider
Sub-modules
aws_lambda_powertools.utilities.data_masking.provider.base
aws_lambda_powertools.utilities.data_masking.provider.kms
Classes
class BaseProvider (json_serializer: Callable[..., str] = functools.partial(<function dumps>, ensure_ascii=False), json_deserializer: Callable[[str], Any] = <function loads>)
-
The BaseProvider class serves as an abstract base class for data masking providers.
Examples
from aws_lambda_powertools.utilities._data_masking.provider import BaseProvider from aws_lambda_powertools.utilities.data_masking import DataMasking class MyCustomProvider(BaseProvider): def encrypt(self, data) -> str: # Implementation logic for data encryption def decrypt(self, data) -> Any: # Implementation logic for data decryption def erase(self, data) -> Union[str, Iterable]: # Implementation logic for data masking pass def lambda_handler(event, context): provider = MyCustomProvider(["secret-key"]) data_masker = DataMasking(provider=provider) data = { "project": "powertools", "sensitive": "password" } encrypted = data_masker.encrypt(data) return encrypted
Expand source code
class BaseProvider: """ The BaseProvider class serves as an abstract base class for data masking providers. Examples -------- ``` from aws_lambda_powertools.utilities._data_masking.provider import BaseProvider from aws_lambda_powertools.utilities.data_masking import DataMasking class MyCustomProvider(BaseProvider): def encrypt(self, data) -> str: # Implementation logic for data encryption def decrypt(self, data) -> Any: # Implementation logic for data decryption def erase(self, data) -> Union[str, Iterable]: # Implementation logic for data masking pass def lambda_handler(event, context): provider = MyCustomProvider(["secret-key"]) data_masker = DataMasking(provider=provider) data = { "project": "powertools", "sensitive": "password" } encrypted = data_masker.encrypt(data) return encrypted ``` """ def __init__( self, json_serializer: Callable[..., str] = functools.partial(json.dumps, ensure_ascii=False), json_deserializer: Callable[[str], Any] = json.loads, ) -> None: self.json_serializer = json_serializer self.json_deserializer = json_deserializer def encrypt(self, data, provider_options: dict | None = None, **encryption_context: str) -> str: """ Abstract method for encrypting data. Subclasses must implement this method. """ raise NotImplementedError("Subclasses must implement encrypt()") def decrypt(self, data, provider_options: dict | None = None, **encryption_context: str) -> Any: """ Abstract method for decrypting data. Subclasses must implement this method. """ raise NotImplementedError("Subclasses must implement decrypt()") def erase(self, data, **kwargs) -> Iterable[str]: """ This method irreversibly erases data. If the data to be erased is of type `str`, `dict`, or `bytes`, this method will return an erased string, i.e. "*****". If the data to be erased is of an iterable type like `list`, `tuple`, or `set`, this method will return a new object of the same type as the input data but with each element replaced by the string "*****". """ if isinstance(data, (str, dict, bytes)): return DATA_MASKING_STRING elif isinstance(data, (list, tuple, set)): return type(data)([DATA_MASKING_STRING] * len(data)) return DATA_MASKING_STRING
Subclasses
Methods
def decrypt(self, data, provider_options: dict | None = None, **encryption_context: str) ‑> Any
-
Abstract method for decrypting data. Subclasses must implement this method.
def encrypt(self, data, provider_options: dict | None = None, **encryption_context: str) ‑> str
-
Abstract method for encrypting data. Subclasses must implement this method.
def erase(self, data, **kwargs) ‑> Iterable[str]
-
This method irreversibly erases data.
If the data to be erased is of type
str
,dict
, orbytes
, this method will return an erased string, i.e. "*".If the data to be erased is of an iterable type like
list
,tuple
, orset
, this method will return a new object of the same type as the input data but with each element replaced by the string "*".