bazarr/libs/jsonschema/_format.py

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from __future__ import annotations
from contextlib import suppress
from uuid import UUID
import datetime
import ipaddress
import re
import typing
import warnings
from jsonschema.exceptions import FormatError
_FormatCheckCallable = typing.Callable[[object], bool]
_F = typing.TypeVar("_F", bound=_FormatCheckCallable)
_RaisesType = typing.Union[
typing.Type[Exception], typing.Tuple[typing.Type[Exception], ...],
]
class FormatChecker:
"""
A ``format`` property checker.
JSON Schema does not mandate that the ``format`` property actually do any
validation. If validation is desired however, instances of this class can
be hooked into validators to enable format validation.
`FormatChecker` objects always return ``True`` when asked about
formats that they do not know how to validate.
To check a custom format using a function that takes an instance and
returns a ``bool``, use the `FormatChecker.checks` or
`FormatChecker.cls_checks` decorators.
Arguments:
formats (~collections.abc.Iterable):
The known formats to validate. This argument can be used to
limit which formats will be used during validation.
"""
checkers: dict[
str,
tuple[_FormatCheckCallable, _RaisesType],
] = {}
def __init__(self, formats: typing.Iterable[str] | None = None):
if formats is None:
self.checkers = self.checkers.copy()
else:
self.checkers = dict((k, self.checkers[k]) for k in formats)
def __repr__(self):
return "<FormatChecker checkers={}>".format(sorted(self.checkers))
def checks(
self, format: str, raises: _RaisesType = (),
) -> typing.Callable[[_F], _F]:
"""
Register a decorated function as validating a new format.
Arguments:
format (str):
The format that the decorated function will check.
raises (Exception):
The exception(s) raised by the decorated function when an
invalid instance is found.
The exception object will be accessible as the
`jsonschema.exceptions.ValidationError.cause` attribute of the
resulting validation error.
"""
def _checks(func: _F) -> _F:
self.checkers[format] = (func, raises)
return func
return _checks
@classmethod
def cls_checks(
cls, format: str, raises: _RaisesType = (),
) -> typing.Callable[[_F], _F]:
warnings.warn(
(
"FormatChecker.cls_checks is deprecated. Call "
"FormatChecker.checks on a specific FormatChecker instance "
"instead."
),
DeprecationWarning,
stacklevel=2,
)
return cls._cls_checks(format=format, raises=raises)
@classmethod
def _cls_checks(
cls, format: str, raises: _RaisesType = (),
) -> typing.Callable[[_F], _F]:
def _checks(func: _F) -> _F:
cls.checkers[format] = (func, raises)
return func
return _checks
def check(self, instance: object, format: str) -> None:
"""
Check whether the instance conforms to the given format.
Arguments:
instance (*any primitive type*, i.e. str, number, bool):
The instance to check
format (str):
The format that instance should conform to
Raises:
FormatError:
if the instance does not conform to ``format``
"""
if format not in self.checkers:
return
func, raises = self.checkers[format]
result, cause = None, None
try:
result = func(instance)
except raises as e:
cause = e
if not result:
raise FormatError(f"{instance!r} is not a {format!r}", cause=cause)
def conforms(self, instance: object, format: str) -> bool:
"""
Check whether the instance conforms to the given format.
Arguments:
instance (*any primitive type*, i.e. str, number, bool):
The instance to check
format (str):
The format that instance should conform to
Returns:
bool: whether it conformed
"""
try:
self.check(instance, format)
except FormatError:
return False
else:
return True
draft3_format_checker = FormatChecker()
draft4_format_checker = FormatChecker()
draft6_format_checker = FormatChecker()
draft7_format_checker = FormatChecker()
draft201909_format_checker = FormatChecker()
draft202012_format_checker = FormatChecker()
_draft_checkers: dict[str, FormatChecker] = dict(
draft3=draft3_format_checker,
draft4=draft4_format_checker,
draft6=draft6_format_checker,
draft7=draft7_format_checker,
draft201909=draft201909_format_checker,
draft202012=draft202012_format_checker,
)
def _checks_drafts(
name=None,
draft3=None,
draft4=None,
draft6=None,
draft7=None,
draft201909=None,
draft202012=None,
raises=(),
) -> typing.Callable[[_F], _F]:
draft3 = draft3 or name
draft4 = draft4 or name
draft6 = draft6 or name
draft7 = draft7 or name
draft201909 = draft201909 or name
draft202012 = draft202012 or name
def wrap(func: _F) -> _F:
if draft3:
func = _draft_checkers["draft3"].checks(draft3, raises)(func)
if draft4:
func = _draft_checkers["draft4"].checks(draft4, raises)(func)
if draft6:
func = _draft_checkers["draft6"].checks(draft6, raises)(func)
if draft7:
func = _draft_checkers["draft7"].checks(draft7, raises)(func)
if draft201909:
func = _draft_checkers["draft201909"].checks(draft201909, raises)(
func,
)
if draft202012:
func = _draft_checkers["draft202012"].checks(draft202012, raises)(
func,
)
# Oy. This is bad global state, but relied upon for now, until
# deprecation. See #519 and test_format_checkers_come_with_defaults
FormatChecker._cls_checks(
draft202012 or draft201909 or draft7 or draft6 or draft4 or draft3,
raises,
)(func)
return func
return wrap
@_checks_drafts(name="idn-email")
@_checks_drafts(name="email")
def is_email(instance: object) -> bool:
if not isinstance(instance, str):
return True
return "@" in instance
@_checks_drafts(
draft3="ip-address",
draft4="ipv4",
draft6="ipv4",
draft7="ipv4",
draft201909="ipv4",
draft202012="ipv4",
raises=ipaddress.AddressValueError,
)
def is_ipv4(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(ipaddress.IPv4Address(instance))
@_checks_drafts(name="ipv6", raises=ipaddress.AddressValueError)
def is_ipv6(instance: object) -> bool:
if not isinstance(instance, str):
return True
address = ipaddress.IPv6Address(instance)
return not getattr(address, "scope_id", "")
with suppress(ImportError):
from fqdn import FQDN
@_checks_drafts(
draft3="host-name",
draft4="hostname",
draft6="hostname",
draft7="hostname",
draft201909="hostname",
draft202012="hostname",
)
def is_host_name(instance: object) -> bool:
if not isinstance(instance, str):
return True
return FQDN(instance).is_valid
with suppress(ImportError):
# The built-in `idna` codec only implements RFC 3890, so we go elsewhere.
import idna
@_checks_drafts(
draft7="idn-hostname",
draft201909="idn-hostname",
draft202012="idn-hostname",
raises=(idna.IDNAError, UnicodeError),
)
def is_idn_host_name(instance: object) -> bool:
if not isinstance(instance, str):
return True
idna.encode(instance)
return True
try:
import rfc3987
except ImportError:
with suppress(ImportError):
from rfc3986_validator import validate_rfc3986
@_checks_drafts(name="uri")
def is_uri(instance: object) -> bool:
if not isinstance(instance, str):
return True
return validate_rfc3986(instance, rule="URI")
@_checks_drafts(
draft6="uri-reference",
draft7="uri-reference",
draft201909="uri-reference",
draft202012="uri-reference",
raises=ValueError,
)
def is_uri_reference(instance: object) -> bool:
if not isinstance(instance, str):
return True
return validate_rfc3986(instance, rule="URI_reference")
else:
@_checks_drafts(
draft7="iri",
draft201909="iri",
draft202012="iri",
raises=ValueError,
)
def is_iri(instance: object) -> bool:
if not isinstance(instance, str):
return True
return rfc3987.parse(instance, rule="IRI")
@_checks_drafts(
draft7="iri-reference",
draft201909="iri-reference",
draft202012="iri-reference",
raises=ValueError,
)
def is_iri_reference(instance: object) -> bool:
if not isinstance(instance, str):
return True
return rfc3987.parse(instance, rule="IRI_reference")
@_checks_drafts(name="uri", raises=ValueError)
def is_uri(instance: object) -> bool:
if not isinstance(instance, str):
return True
return rfc3987.parse(instance, rule="URI")
@_checks_drafts(
draft6="uri-reference",
draft7="uri-reference",
draft201909="uri-reference",
draft202012="uri-reference",
raises=ValueError,
)
def is_uri_reference(instance: object) -> bool:
if not isinstance(instance, str):
return True
return rfc3987.parse(instance, rule="URI_reference")
with suppress(ImportError):
from rfc3339_validator import validate_rfc3339
@_checks_drafts(name="date-time")
def is_datetime(instance: object) -> bool:
if not isinstance(instance, str):
return True
return validate_rfc3339(instance.upper())
@_checks_drafts(
draft7="time",
draft201909="time",
draft202012="time",
)
def is_time(instance: object) -> bool:
if not isinstance(instance, str):
return True
return is_datetime("1970-01-01T" + instance)
@_checks_drafts(name="regex", raises=re.error)
def is_regex(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(re.compile(instance))
@_checks_drafts(
draft3="date",
draft7="date",
draft201909="date",
draft202012="date",
raises=ValueError,
)
def is_date(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(instance.isascii() and datetime.date.fromisoformat(instance))
@_checks_drafts(draft3="time", raises=ValueError)
def is_draft3_time(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(datetime.datetime.strptime(instance, "%H:%M:%S"))
with suppress(ImportError):
from webcolors import CSS21_NAMES_TO_HEX
import webcolors
def is_css_color_code(instance: object) -> bool:
return webcolors.normalize_hex(instance)
@_checks_drafts(draft3="color", raises=(ValueError, TypeError))
def is_css21_color(instance: object) -> bool:
if (
not isinstance(instance, str)
or instance.lower() in CSS21_NAMES_TO_HEX
):
return True
return is_css_color_code(instance)
with suppress(ImportError):
import jsonpointer
@_checks_drafts(
draft6="json-pointer",
draft7="json-pointer",
draft201909="json-pointer",
draft202012="json-pointer",
raises=jsonpointer.JsonPointerException,
)
def is_json_pointer(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(jsonpointer.JsonPointer(instance))
# TODO: I don't want to maintain this, so it
# needs to go either into jsonpointer (pending
# https://github.com/stefankoegl/python-json-pointer/issues/34) or
# into a new external library.
@_checks_drafts(
draft7="relative-json-pointer",
draft201909="relative-json-pointer",
draft202012="relative-json-pointer",
raises=jsonpointer.JsonPointerException,
)
def is_relative_json_pointer(instance: object) -> bool:
# Definition taken from:
# https://tools.ietf.org/html/draft-handrews-relative-json-pointer-01#section-3
if not isinstance(instance, str):
return True
non_negative_integer, rest = [], ""
for i, character in enumerate(instance):
if character.isdigit():
# digits with a leading "0" are not allowed
if i > 0 and int(instance[i - 1]) == 0:
return False
non_negative_integer.append(character)
continue
if not non_negative_integer:
return False
rest = instance[i:]
break
return (rest == "#") or bool(jsonpointer.JsonPointer(rest))
with suppress(ImportError):
import uri_template
@_checks_drafts(
draft6="uri-template",
draft7="uri-template",
draft201909="uri-template",
draft202012="uri-template",
)
def is_uri_template(instance: object) -> bool:
if not isinstance(instance, str):
return True
return uri_template.validate(instance)
with suppress(ImportError):
import isoduration
@_checks_drafts(
draft201909="duration",
draft202012="duration",
raises=isoduration.DurationParsingException,
)
def is_duration(instance: object) -> bool:
if not isinstance(instance, str):
return True
return bool(isoduration.parse_duration(instance))
@_checks_drafts(
draft201909="uuid",
draft202012="uuid",
raises=ValueError,
)
def is_uuid(instance: object) -> bool:
if not isinstance(instance, str):
return True
UUID(instance)
return all(instance[position] == "-" for position in (8, 13, 18, 23))