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Direktori : /proc/self/root/proc/self/root/opt/alt/python38/lib/python3.8/site-packages/cerberus/ |
Current File : //proc/self/root/proc/self/root/opt/alt/python38/lib/python3.8/site-packages/cerberus/schema.py |
from __future__ import absolute_import from warnings import warn from cerberus import errors from cerberus.platform import ( _str_type, Callable, Hashable, Mapping, MutableMapping, Sequence, ) from cerberus.utils import ( get_Validator_class, validator_factory, mapping_hash, TypeDefinition, ) class _Abort(Exception): pass class SchemaError(Exception): """ Raised when the validation schema is missing, has the wrong format or contains errors.""" pass class DefinitionSchema(MutableMapping): """A dict-subclass for caching of validated schemas.""" def __new__(cls, *args, **kwargs): if 'SchemaValidator' not in globals(): global SchemaValidator SchemaValidator = validator_factory('SchemaValidator', SchemaValidatorMixin) types_mapping = SchemaValidator.types_mapping.copy() types_mapping.update( { 'callable': TypeDefinition('callable', (Callable,), ()), 'hashable': TypeDefinition('hashable', (Hashable,), ()), } ) SchemaValidator.types_mapping = types_mapping return super(DefinitionSchema, cls).__new__(cls) def __init__(self, validator, schema): """ :param validator: An instance of Validator-(sub-)class that uses this schema. :param schema: A definition-schema as ``dict``. Defaults to an empty one. """ if not isinstance(validator, get_Validator_class()): raise RuntimeError('validator argument must be a Validator-' 'instance.') self.validator = validator if isinstance(schema, _str_type): schema = validator.schema_registry.get(schema, schema) if not isinstance(schema, Mapping): try: schema = dict(schema) except Exception: raise SchemaError(errors.SCHEMA_ERROR_DEFINITION_TYPE.format(schema)) self.validation_schema = SchemaValidationSchema(validator) self.schema_validator = SchemaValidator( None, allow_unknown=self.validation_schema, error_handler=errors.SchemaErrorHandler, target_schema=schema, target_validator=validator, ) schema = self.expand(schema) self.validate(schema) self.schema = schema def __delitem__(self, key): _new_schema = self.schema.copy() try: del _new_schema[key] except ValueError: raise SchemaError("Schema has no field '%s' defined" % key) except Exception as e: raise e else: del self.schema[key] def __getitem__(self, item): return self.schema[item] def __iter__(self): return iter(self.schema) def __len__(self): return len(self.schema) def __repr__(self): return str(self) def __setitem__(self, key, value): value = self.expand({0: value})[0] self.validate({key: value}) self.schema[key] = value def __str__(self): if hasattr(self, "schema"): return str(self.schema) else: return "No schema data is set yet." def copy(self): return self.__class__(self.validator, self.schema.copy()) @classmethod def expand(cls, schema): try: schema = cls._expand_logical_shortcuts(schema) schema = cls._expand_subschemas(schema) except Exception: pass # TODO remove this with the next major release schema = cls._rename_deprecated_rulenames(schema) return schema @classmethod def _expand_logical_shortcuts(cls, schema): """ Expand agglutinated rules in a definition-schema. :param schema: The schema-definition to expand. :return: The expanded schema-definition. """ def is_of_rule(x): return isinstance(x, _str_type) and x.startswith( ('allof_', 'anyof_', 'noneof_', 'oneof_') ) for field, rules in schema.items(): for of_rule in [x for x in rules if is_of_rule(x)]: operator, rule = of_rule.split('_', 1) rules.update({operator: []}) for value in rules[of_rule]: rules[operator].append({rule: value}) del rules[of_rule] return schema @classmethod def _expand_subschemas(cls, schema): def has_schema_rule(): return isinstance(schema[field], Mapping) and 'schema' in schema[field] def has_mapping_schema(): """ Tries to determine heuristically if the schema-constraints are aimed to mappings. """ try: return all( isinstance(x, Mapping) for x in schema[field]['schema'].values() ) except TypeError: return False for field in schema: if not has_schema_rule(): pass elif has_mapping_schema(): schema[field]['schema'] = cls.expand(schema[field]['schema']) else: # assumes schema-constraints for a sequence schema[field]['schema'] = cls.expand({0: schema[field]['schema']})[0] # TODO remove the last two values in the tuple with the next major release for rule in ('keysrules', 'valuesrules', 'keyschema', 'valueschema'): if rule in schema[field]: schema[field][rule] = cls.expand({0: schema[field][rule]})[0] for rule in ('allof', 'anyof', 'items', 'noneof', 'oneof'): if rule in schema[field]: if not isinstance(schema[field][rule], Sequence): continue new_rules_definition = [] for item in schema[field][rule]: new_rules_definition.append(cls.expand({0: item})[0]) schema[field][rule] = new_rules_definition return schema def get(self, item, default=None): return self.schema.get(item, default) def items(self): return self.schema.items() def update(self, schema): try: schema = self.expand(schema) _new_schema = self.schema.copy() _new_schema.update(schema) self.validate(_new_schema) except ValueError: raise SchemaError(errors.SCHEMA_ERROR_DEFINITION_TYPE.format(schema)) except Exception as e: raise e else: self.schema = _new_schema # TODO remove with next major release @staticmethod def _rename_deprecated_rulenames(schema): for field, rules in schema.items(): if isinstance(rules, str): # registry reference continue for old, new in ( ('keyschema', 'keysrules'), ('validator', 'check_with'), ('valueschema', 'valuesrules'), ): if old not in rules: continue if new in rules: raise RuntimeError( "The rule '{new}' is also present with its old " "name '{old}' in the same set of rules." ) warn( "The rule '{old}' was renamed to '{new}'. The old name will " "not be available in the next major release of " "Cerberus.".format(old=old, new=new), DeprecationWarning, ) schema[field][new] = schema[field][old] schema[field].pop(old) return schema def regenerate_validation_schema(self): self.validation_schema = SchemaValidationSchema(self.validator) def validate(self, schema=None): """ Validates a schema that defines rules against supported rules. :param schema: The schema to be validated as a legal cerberus schema according to the rules of the assigned Validator object. Raises a :class:`~cerberus.base.SchemaError` when an invalid schema is encountered. """ if schema is None: schema = self.schema _hash = (mapping_hash(schema), mapping_hash(self.validator.types_mapping)) if _hash not in self.validator._valid_schemas: self._validate(schema) self.validator._valid_schemas.add(_hash) def _validate(self, schema): if isinstance(schema, _str_type): schema = self.validator.schema_registry.get(schema, schema) test_schema = {} for field, rules in schema.items(): if isinstance(rules, _str_type): test_schema[field] = rules_set_registry.get(rules, rules) else: test_rules = {} for rule, constraint in rules.items(): test_rules[rule.replace(" ", "_")] = constraint test_schema[field] = test_rules if not self.schema_validator(test_schema, normalize=False): raise SchemaError(self.schema_validator.errors) class UnvalidatedSchema(DefinitionSchema): def __init__(self, schema={}): if not isinstance(schema, Mapping): schema = dict(schema) self.schema = schema def validate(self, schema): pass def copy(self): # Override ancestor's copy, because # UnvalidatedSchema does not have .validator: return self.__class__(self.schema.copy()) class SchemaValidationSchema(UnvalidatedSchema): def __init__(self, validator): self.schema = { 'allow_unknown': False, 'schema': validator.rules, 'type': 'dict', } class SchemaValidatorMixin(object): """ This validator mixin provides mechanics to validate schemas passed to a Cerberus validator. """ def __init__(self, *args, **kwargs): kwargs.setdefault('known_rules_set_refs', set()) kwargs.setdefault('known_schema_refs', set()) super(SchemaValidatorMixin, self).__init__(*args, **kwargs) @property def known_rules_set_refs(self): """The encountered references to rules set registry items.""" return self._config['known_rules_set_refs'] @property def known_schema_refs(self): """The encountered references to schema registry items.""" return self._config['known_schema_refs'] @property def target_schema(self): """The schema that is being validated.""" return self._config['target_schema'] @property def target_validator(self): """The validator whose schema is being validated.""" return self._config['target_validator'] def _check_with_bulk_schema(self, field, value): # resolve schema registry reference if isinstance(value, _str_type): if value in self.known_rules_set_refs: return else: self.known_rules_set_refs.add(value) definition = self.target_validator.rules_set_registry.get(value) if definition is None: self._error(field, 'Rules set definition %s not found.' % value) return else: value = definition _hash = ( mapping_hash({'turing': value}), mapping_hash(self.target_validator.types_mapping), ) if _hash in self.target_validator._valid_schemas: return validator = self._get_child_validator( document_crumb=field, allow_unknown=False, schema=self.target_validator.rules, ) validator(value, normalize=False) if validator._errors: self._error(validator._errors) else: self.target_validator._valid_schemas.add(_hash) def _check_with_dependencies(self, field, value): if isinstance(value, _str_type): pass elif isinstance(value, Mapping): validator = self._get_child_validator( document_crumb=field, schema={'valuesrules': {'type': 'list'}}, allow_unknown=True, ) if not validator(value, normalize=False): self._error(validator._errors) elif isinstance(value, Sequence): if not all(isinstance(x, Hashable) for x in value): path = self.document_path + (field,) self._error(path, 'All dependencies must be a hashable type.') def _check_with_items(self, field, value): for i, schema in enumerate(value): self._check_with_bulk_schema((field, i), schema) def _check_with_schema(self, field, value): try: value = self._handle_schema_reference_for_validator(field, value) except _Abort: return _hash = (mapping_hash(value), mapping_hash(self.target_validator.types_mapping)) if _hash in self.target_validator._valid_schemas: return validator = self._get_child_validator( document_crumb=field, schema=None, allow_unknown=self.root_allow_unknown ) validator(self._expand_rules_set_refs(value), normalize=False) if validator._errors: self._error(validator._errors) else: self.target_validator._valid_schemas.add(_hash) def _check_with_type(self, field, value): value = set((value,)) if isinstance(value, _str_type) else set(value) invalid_constraints = value - set(self.target_validator.types) if invalid_constraints: self._error( field, 'Unsupported types: {}'.format(', '.join(invalid_constraints)) ) def _expand_rules_set_refs(self, schema): result = {} for k, v in schema.items(): if isinstance(v, _str_type): result[k] = self.target_validator.rules_set_registry.get(v) else: result[k] = v return result def _handle_schema_reference_for_validator(self, field, value): if not isinstance(value, _str_type): return value if value in self.known_schema_refs: raise _Abort self.known_schema_refs.add(value) definition = self.target_validator.schema_registry.get(value) if definition is None: path = self.document_path + (field,) self._error(path, 'Schema definition {} not found.'.format(value)) raise _Abort return definition def _validate_logical(self, rule, field, value): """{'allowed': ('allof', 'anyof', 'noneof', 'oneof')}""" if not isinstance(value, Sequence): self._error(field, errors.BAD_TYPE) return validator = self._get_child_validator( document_crumb=rule, allow_unknown=False, schema=self.target_validator.validation_rules, ) for constraints in value: _hash = ( mapping_hash({'turing': constraints}), mapping_hash(self.target_validator.types_mapping), ) if _hash in self.target_validator._valid_schemas: continue validator(constraints, normalize=False) if validator._errors: self._error(validator._errors) else: self.target_validator._valid_schemas.add(_hash) #### class Registry(object): """ A registry to store and retrieve schemas and parts of it by a name that can be used in validation schemas. :param definitions: Optional, initial definitions. :type definitions: any :term:`mapping` """ def __init__(self, definitions={}): self._storage = {} self.extend(definitions) def add(self, name, definition): """ Register a definition to the registry. Existing definitions are replaced silently. :param name: The name which can be used as reference in a validation schema. :type name: :class:`str` :param definition: The definition. :type definition: any :term:`mapping` """ self._storage[name] = self._expand_definition(definition) def all(self): """ Returns a :class:`dict` with all registered definitions mapped to their name. """ return self._storage def clear(self): """Purge all definitions in the registry.""" self._storage.clear() def extend(self, definitions): """ Add several definitions at once. Existing definitions are replaced silently. :param definitions: The names and definitions. :type definitions: a :term:`mapping` or an :term:`iterable` with two-value :class:`tuple` s """ for name, definition in dict(definitions).items(): self.add(name, definition) def get(self, name, default=None): """ Retrieve a definition from the registry. :param name: The reference that points to the definition. :type name: :class:`str` :param default: Return value if the reference isn't registered. """ return self._storage.get(name, default) def remove(self, *names): """ Unregister definitions from the registry. :param names: The names of the definitions that are to be unregistered. """ for name in names: self._storage.pop(name, None) class SchemaRegistry(Registry): @classmethod def _expand_definition(cls, definition): return DefinitionSchema.expand(definition) class RulesSetRegistry(Registry): @classmethod def _expand_definition(cls, definition): return DefinitionSchema.expand({0: definition})[0] schema_registry, rules_set_registry = SchemaRegistry(), RulesSetRegistry()