from __future__ import annotations from collections import defaultdict from itertools import chain from types import MappingProxyType from typing import Any from typing import Callable from typing import Dict from typing import List from typing import Optional from typing import Sequence from typing import Union from dynaconf import validator_conditions from dynaconf.utils import ensure_a_list from dynaconf.utils.functional import empty EQUALITY_ATTRS = ( "names", "must_exist", "when", "condition", "operations", "envs", ) class ValidationError(Exception): pass class Validator: """Validators are conditions attached to settings variables names or patterns:: Validator('MESSAGE', must_exist=True, eq='Hello World') The above ensure MESSAGE is available in default env and is equal to 'Hello World' `names` are a one (or more) names or patterns:: Validator('NAME') Validator('NAME', 'OTHER_NAME', 'EVEN_OTHER') Validator(r'^NAME', r'OTHER./*') The `operations` are:: eq: value == other ne: value != other gt: value > other lt: value < other gte: value >= other lte: value <= other is_type_of: isinstance(value, type) is_in: value in sequence is_not_in: value not in sequence identity: value is other cont: contain value in len_eq: len(value) == other len_ne: len(value) != other len_min: len(value) > other len_max: len(value) < other `env` is which env to be checked, can be a list or default is used. `when` holds a validator and its return decides if validator runs or not:: Validator('NAME', must_exist=True, when=Validator('OTHER', eq=2)) # NAME is required only if OTHER eq to 2 # When the very first thing to be performed when passed. # if no env is passed to `when` it is inherited `must_exist` is alias to `required` requirement. (executed after when):: settings.get(value, empty) returns non empty condition is a callable to be executed and return boolean:: Validator('NAME', condition=lambda x: x == 1) # it is executed before operations. """ default_messages = MappingProxyType( { "must_exist_true": "{name} is required in env {env}", "must_exist_false": "{name} cannot exists in env {env}", "condition": "{name} invalid for {function}({value}) in env {env}", "operations": ( "{name} must {operation} {op_value} " "but it is {value} in env {env}" ), "combined": "combined validators failed {errors}", } ) def __init__( self, *names: str, must_exist: Optional[bool] = None, required: Optional[bool] = None, # alias for `must_exist` condition: Optional[Callable[[Any], bool]] = None, when: Optional[Validator] = None, env: Optional[Union[str, Sequence[str]]] = None, messages: Optional[Dict[str, str]] = None, cast: Optional[Callable[[Any], Any]] = None, default: Optional[Union[Any, Callable[[Any, Validator], Any]]] = empty, description: Optional[str] = None, **operations: Any, ) -> None: # Copy immutable MappingProxyType as a mutable dict self.messages = dict(self.default_messages) if messages: self.messages.update(messages) if when is not None and not isinstance(when, Validator): raise TypeError("when must be Validator instance") if condition is not None and not callable(condition): raise TypeError("condition must be callable") self.names = names self.must_exist = must_exist if must_exist is not None else required self.condition = condition self.when = when self.cast = cast or (lambda value: value) self.operations = operations self.default = default self.description = description self.envs: Optional[Sequence[str]] = None if isinstance(env, str): self.envs = [env] elif isinstance(env, (list, tuple)): self.envs = env def __or__(self, other: Validator) -> CombinedValidator: return OrValidator(self, other, description=self.description) def __and__(self, other: Validator) -> CombinedValidator: return AndValidator(self, other, description=self.description) def __eq__(self, other: object) -> bool: if self is other: return True if type(self).__name__ != type(other).__name__: return False identical_attrs = ( getattr(self, attr) == getattr(other, attr) for attr in EQUALITY_ATTRS ) if all(identical_attrs): return True return False def validate( self, settings: Any, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: """Raise ValidationError if invalid""" # If only or exclude are not set, this value always passes startswith only = ensure_a_list(only or [""]) if only and not isinstance(only[0], str): raise ValueError("'only' must be a string or list of strings.") exclude = ensure_a_list(exclude) if exclude and not isinstance(exclude[0], str): raise ValueError("'exclude' must be a string or list of strings.") if self.envs is None: self.envs = [settings.current_env] if self.when is not None: try: # inherit env if not defined if self.when.envs is None: self.when.envs = self.envs self.when.validate(settings, only=only, exclude=exclude) except ValidationError: # if when is invalid, return canceling validation flow return # If only using current_env, skip using_env decoration (reload) if ( len(self.envs) == 1 and self.envs[0].upper() == settings.current_env.upper() ): self._validate_items( settings, settings.current_env, only=only, exclude=exclude ) return for env in self.envs: self._validate_items( settings.from_env(env), only=only, exclude=exclude ) def _validate_items( self, settings: Any, env: Optional[str] = None, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: env = env or settings.current_env for name in self.names: # Skip if only is set and name isn't in the only list if only and not any(name.startswith(sub) for sub in only): continue # Skip if exclude is set and name is in the exclude list if exclude and any(name.startswith(sub) for sub in exclude): continue if self.default is not empty: default_value = ( self.default(settings, self) if callable(self.default) else self.default ) else: default_value = empty value = self.cast(settings.setdefault(name, default_value)) # is name required but not exists? if self.must_exist is True and value is empty: raise ValidationError( self.messages["must_exist_true"].format(name=name, env=env) ) if self.must_exist is False and value is not empty: raise ValidationError( self.messages["must_exist_false"].format( name=name, env=env ) ) if self.must_exist in (False, None) and value is empty: continue # is there a callable condition? if self.condition is not None: if not self.condition(value): raise ValidationError( self.messages["condition"].format( name=name, function=self.condition.__name__, value=value, env=env, ) ) # operations for op_name, op_value in self.operations.items(): op_function = getattr(validator_conditions, op_name) if not op_function(value, op_value): raise ValidationError( self.messages["operations"].format( name=name, operation=op_function.__name__, op_value=op_value, value=value, env=env, ) ) class CombinedValidator(Validator): def __init__( self, validator_a: Validator, validator_b: Validator, *args: Any, **kwargs: Any, ) -> None: """Takes 2 validators and combines the validation""" self.validators = (validator_a, validator_b) super().__init__(*args, **kwargs) for attr in EQUALITY_ATTRS: if not getattr(self, attr, None): value = tuple( getattr(validator, attr) for validator in self.validators ) setattr(self, attr, value) def validate( self, settings: Any, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: # pragma: no cover raise NotImplementedError( "subclasses OrValidator or AndValidator implements this method" ) class OrValidator(CombinedValidator): """Evaluates on Validator() | Validator()""" def validate( self, settings: Any, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: """Ensure at least one of the validators are valid""" errors = [] for validator in self.validators: try: validator.validate(settings, only=only, exclude=exclude) except ValidationError as e: errors.append(e) continue else: return raise ValidationError( self.messages["combined"].format( errors=" or ".join( str(e).replace("combined validators failed ", "") for e in errors ) ) ) class AndValidator(CombinedValidator): """Evaluates on Validator() & Validator()""" def validate( self, settings: Any, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: """Ensure both the validators are valid""" errors = [] for validator in self.validators: try: validator.validate(settings, only=only, exclude=exclude) except ValidationError as e: errors.append(e) continue if errors: raise ValidationError( self.messages["combined"].format( errors=" and ".join( str(e).replace("combined validators failed ", "") for e in errors ) ) ) class ValidatorList(list): def __init__( self, settings: Any, validators: Optional[Sequence[Validator]] = None, *args: Validator, **kwargs: Any, ) -> None: if isinstance(validators, (list, tuple)): args = list(args) + list(validators) # type: ignore self._only = kwargs.pop("validate_only", None) self._exclude = kwargs.pop("validate_exclude", None) super(ValidatorList, self).__init__(args, **kwargs) # type: ignore self.settings = settings def register(self, *args: Validator, **kwargs: Validator): validators: List[Validator] = list( chain.from_iterable(kwargs.values()) # type: ignore ) validators.extend(args) for validator in validators: if validator and validator not in self: self.append(validator) def descriptions( self, flat: bool = False ) -> Dict[str, Union[str, List[str]]]: if flat: descriptions: Dict[str, Union[str, List[str]]] = {} else: descriptions = defaultdict(list) for validator in self: for name in validator.names: if isinstance(name, tuple) and len(name) > 0: name = name[0] if flat: descriptions.setdefault(name, validator.description) else: descriptions[name].append( # type: ignore validator.description ) return descriptions def validate( self, only: Optional[Union[str, Sequence]] = None, exclude: Optional[Union[str, Sequence]] = None, ) -> None: for validator in self: validator.validate(self.settings, only=only, exclude=exclude)