''' This module sets up a scheme for validating that arbitrary Python objects are correctly typed. It is totally decoupled from Django, composable, easily wrapped, and easily extended. A validator takes two parameters--var_name and val--and returns an error if val is not the correct type. The var_name parameter is used to format error messages. Validators return None when there are no errors. Example primitive validators are check_string, check_int, and check_bool. Compound validators are created by check_list and check_dict. Note that those functions aren't directly called for validation; instead, those functions are called to return other functions that adhere to the validator contract. This is similar to how Python decorators are often parameterized. The contract for check_list and check_dict is that they get passed in other validators to apply to their items. This allows you to build up validators for arbitrarily complex validators. See ValidatorTestCase for example usage. A simple example of composition is this: check_list(check_string)('my_list', ['a', 'b', 'c']) is None To extend this concept, it's simply a matter of writing your own validator for any particular type of object. ''' from django.utils.translation import ugettext as _ from django.core.exceptions import ValidationError from django.core.validators import validate_email, URLValidator from typing import Callable, Iterable, Optional, Tuple, TypeVar, Text from zerver.lib.request import JsonableError from zerver.lib.types import Validator def check_string(var_name: str, val: object) -> Optional[str]: if not isinstance(val, str): return _('%s is not a string') % (var_name,) return None def check_short_string(var_name: str, val: object) -> Optional[str]: return check_capped_string(var_name, val, 50) def check_capped_string(var_name: str, val: object, max_length: int) -> Optional[str]: if not isinstance(val, str): return _('%s is not a string') % (var_name,) if len(val) >= max_length: return _("{var_name} is longer than {max_length}.".format( var_name=var_name, max_length=max_length)) return None def check_long_string(var_name: str, val: object) -> Optional[str]: return check_capped_string(var_name, val, 500) def check_int(var_name: str, val: object) -> Optional[str]: if not isinstance(val, int): return _('%s is not an integer') % (var_name,) return None def check_float(var_name: str, val: object) -> Optional[str]: if not isinstance(val, float): return _('%s is not a float') % (var_name,) return None def check_bool(var_name: str, val: object) -> Optional[str]: if not isinstance(val, bool): return _('%s is not a boolean') % (var_name,) return None def check_none_or(sub_validator: Validator) -> Validator: def f(var_name: str, val: object) -> Optional[str]: if val is None: return None else: return sub_validator(var_name, val) return f def check_list(sub_validator: Optional[Validator], length: Optional[int]=None) -> Validator: def f(var_name: str, val: object) -> Optional[str]: if not isinstance(val, list): return _('%s is not a list') % (var_name,) if length is not None and length != len(val): return (_('%(container)s should have exactly %(length)s items') % {'container': var_name, 'length': length}) if sub_validator: for i, item in enumerate(val): vname = '%s[%d]' % (var_name, i) error = sub_validator(vname, item) if error: return error return None return f def check_dict(required_keys: Iterable[Tuple[str, Validator]]=[], value_validator: Optional[Validator]=None, _allow_only_listed_keys: bool=False) -> Validator: def f(var_name: str, val: object) -> Optional[str]: if not isinstance(val, dict): return _('%s is not a dict') % (var_name,) for k, sub_validator in required_keys: if k not in val: return (_('%(key_name)s key is missing from %(var_name)s') % {'key_name': k, 'var_name': var_name}) vname = '%s["%s"]' % (var_name, k) error = sub_validator(vname, val[k]) if error: return error if value_validator: for key in val: vname = '%s contains a value that' % (var_name,) error = value_validator(vname, val[key]) if error: return error if _allow_only_listed_keys: delta_keys = set(val.keys()) - set(x[0] for x in required_keys) if len(delta_keys) != 0: return _("Unexpected arguments: %s" % (", ".join(list(delta_keys)))) return None return f def check_dict_only(required_keys: Iterable[Tuple[str, Validator]]) -> Validator: return check_dict(required_keys, _allow_only_listed_keys=True) def check_variable_type(allowed_type_funcs: Iterable[Validator]) -> Validator: """ Use this validator if an argument is of a variable type (e.g. processing properties that might be strings or booleans). `allowed_type_funcs`: the check_* validator functions for the possible data types for this variable. """ def enumerated_type_check(var_name: str, val: object) -> Optional[str]: for func in allowed_type_funcs: if not func(var_name, val): return None return _('%s is not an allowed_type') % (var_name,) return enumerated_type_check def equals(expected_val: object) -> Validator: def f(var_name: str, val: object) -> Optional[str]: if val != expected_val: return (_('%(variable)s != %(expected_value)s (%(value)s is wrong)') % {'variable': var_name, 'expected_value': expected_val, 'value': val}) return None return f def validate_login_email(email: Text) -> None: try: validate_email(email) except ValidationError as err: raise JsonableError(str(err.message)) def check_url(var_name: str, val: object) -> Optional[str]: # First, ensure val is a string string_msg = check_string(var_name, val) if string_msg is not None: return string_msg # Now, validate as URL validate = URLValidator() try: validate(val) return None except ValidationError as err: return _('%s is not a URL') % (var_name,)