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Direktori : /usr/lib/python3/dist-packages/keyring/ |
Current File : //usr/lib/python3/dist-packages/keyring/backend.py |
""" Keyring implementation support """ import os import abc import logging import operator from typing import Optional import importlib_metadata as metadata from . import credentials, errors, util from .util import properties log = logging.getLogger(__name__) by_priority = operator.attrgetter('priority') _limit = None class KeyringBackendMeta(abc.ABCMeta): """ A metaclass that's both an ABCMeta and a type that keeps a registry of all (non-abstract) types. """ def __init__(cls, name, bases, dict): super().__init__(name, bases, dict) if not hasattr(cls, '_classes'): cls._classes = set() classes = cls._classes if not cls.__abstractmethods__: classes.add(cls) class KeyringBackend(metaclass=KeyringBackendMeta): """The abstract base class of the keyring, every backend must implement this interface. """ def __init__(self): self.set_properties_from_env() # @abc.abstractproperty def priority(cls): """ Each backend class must supply a priority, a number (float or integer) indicating the priority of the backend relative to all other backends. The priority need not be static -- it may (and should) vary based attributes of the environment in which is runs (platform, available packages, etc.). A higher number indicates a higher priority. The priority should raise a RuntimeError with a message indicating the underlying cause if the backend is not suitable for the current environment. As a rule of thumb, a priority between zero but less than one is suitable, but a priority of one or greater is recommended. """ @properties.ClassProperty @classmethod def viable(cls): with errors.ExceptionRaisedContext() as exc: cls.priority return not exc @classmethod def get_viable_backends(cls): """ Return all subclasses deemed viable. """ return filter(operator.attrgetter('viable'), cls._classes) @properties.ClassProperty @classmethod def name(cls): """ The keyring name, suitable for display. The name is derived from module and class name. """ parent, sep, mod_name = cls.__module__.rpartition('.') mod_name = mod_name.replace('_', ' ') return ' '.join([mod_name, cls.__name__]) def __str__(self): keyring_class = type(self) return "{}.{} (priority: {:g})".format( keyring_class.__module__, keyring_class.__name__, keyring_class.priority ) @abc.abstractmethod def get_password(self, service: str, username: str) -> Optional[str]: """Get password of the username for the service""" return None @abc.abstractmethod def set_password(self, service: str, username: str, password: str) -> None: """Set password for the username of the service. If the backend cannot store passwords, raise PasswordSetError. """ raise errors.PasswordSetError("reason") # for backward-compatibility, don't require a backend to implement # delete_password # @abc.abstractmethod def delete_password(self, service: str, username: str) -> None: """Delete the password for the username of the service. If the backend cannot delete passwords, raise PasswordDeleteError. """ raise errors.PasswordDeleteError("reason") # for backward-compatibility, don't require a backend to implement # get_credential # @abc.abstractmethod def get_credential( self, service: str, username: Optional[str], ) -> Optional[credentials.Credential]: """Gets the username and password for the service. Returns a Credential instance. The *username* argument is optional and may be omitted by the caller or ignored by the backend. Callers must use the returned username. """ # The default implementation requires a username here. if username is not None: password = self.get_password(service, username) if password is not None: return credentials.SimpleCredential(username, password) return None def set_properties_from_env(self): """For all KEYRING_PROPERTY_* env var, set that property.""" def parse(item): key, value = item pre, sep, name = key.partition('KEYRING_PROPERTY_') return sep and (name.lower(), value) props = filter(None, map(parse, os.environ.items())) for name, value in props: setattr(self, name, value) class Crypter: """Base class providing encryption and decryption""" @abc.abstractmethod def encrypt(self, value): """Encrypt the value.""" pass @abc.abstractmethod def decrypt(self, value): """Decrypt the value.""" pass class NullCrypter(Crypter): """A crypter that does nothing""" def encrypt(self, value): return value def decrypt(self, value): return value def _load_plugins(): """ Locate all setuptools entry points by the name 'keyring backends' and initialize them. Any third-party library may register an entry point by adding the following to their setup.cfg:: [options.entry_points] keyring.backends = plugin_name = mylib.mymodule:initialize_func `plugin_name` can be anything, and is only used to display the name of the plugin at initialization time. `initialize_func` is optional, but will be invoked if callable. """ for ep in metadata.entry_points(group='keyring.backends'): try: log.debug('Loading %s', ep.name) init_func = ep.load() if callable(init_func): init_func() except Exception: log.exception(f"Error initializing plugin {ep}.") @util.once def get_all_keyring(): """ Return a list of all implemented keyrings that can be constructed without parameters. """ _load_plugins() viable_classes = KeyringBackend.get_viable_backends() rings = util.suppress_exceptions(viable_classes, exceptions=TypeError) return list(rings)