Hacked By AnonymousFox
from __future__ import annotations
import binascii
import json
import warnings
from typing import TYPE_CHECKING, Any
from .algorithms import (
Algorithm,
get_default_algorithms,
has_crypto,
requires_cryptography,
)
from .exceptions import (
DecodeError,
InvalidAlgorithmError,
InvalidSignatureError,
InvalidTokenError,
)
from .utils import base64url_decode, base64url_encode
from .warnings import RemovedInPyjwt3Warning
if TYPE_CHECKING:
from .algorithms import AllowedPrivateKeys, AllowedPublicKeys
class PyJWS:
header_typ = "JWT"
def __init__(
self,
algorithms: list[str] | None = None,
options: dict[str, Any] | None = None,
) -> None:
self._algorithms = get_default_algorithms()
self._valid_algs = (
set(algorithms) if algorithms is not None else set(self._algorithms)
)
# Remove algorithms that aren't on the whitelist
for key in list(self._algorithms.keys()):
if key not in self._valid_algs:
del self._algorithms[key]
if options is None:
options = {}
self.options = {**self._get_default_options(), **options}
@staticmethod
def _get_default_options() -> dict[str, bool]:
return {"verify_signature": True}
def register_algorithm(self, alg_id: str, alg_obj: Algorithm) -> None:
"""
Registers a new Algorithm for use when creating and verifying tokens.
"""
if alg_id in self._algorithms:
raise ValueError("Algorithm already has a handler.")
if not isinstance(alg_obj, Algorithm):
raise TypeError("Object is not of type `Algorithm`")
self._algorithms[alg_id] = alg_obj
self._valid_algs.add(alg_id)
def unregister_algorithm(self, alg_id: str) -> None:
"""
Unregisters an Algorithm for use when creating and verifying tokens
Throws KeyError if algorithm is not registered.
"""
if alg_id not in self._algorithms:
raise KeyError(
"The specified algorithm could not be removed"
" because it is not registered."
)
del self._algorithms[alg_id]
self._valid_algs.remove(alg_id)
def get_algorithms(self) -> list[str]:
"""
Returns a list of supported values for the 'alg' parameter.
"""
return list(self._valid_algs)
def get_algorithm_by_name(self, alg_name: str) -> Algorithm:
"""
For a given string name, return the matching Algorithm object.
Example usage:
>>> jws_obj.get_algorithm_by_name("RS256")
"""
try:
return self._algorithms[alg_name]
except KeyError as e:
if not has_crypto and alg_name in requires_cryptography:
raise NotImplementedError(
f"Algorithm '{alg_name}' could not be found. Do you have cryptography installed?"
) from e
raise NotImplementedError("Algorithm not supported") from e
def encode(
self,
payload: bytes,
key: AllowedPrivateKeys | str | bytes,
algorithm: str | None = "HS256",
headers: dict[str, Any] | None = None,
json_encoder: type[json.JSONEncoder] | None = None,
is_payload_detached: bool = False,
sort_headers: bool = True,
) -> str:
segments = []
# declare a new var to narrow the type for type checkers
algorithm_: str = algorithm if algorithm is not None else "none"
# Prefer headers values if present to function parameters.
if headers:
headers_alg = headers.get("alg")
if headers_alg:
algorithm_ = headers["alg"]
headers_b64 = headers.get("b64")
if headers_b64 is False:
is_payload_detached = True
# Header
header: dict[str, Any] = {"typ": self.header_typ, "alg": algorithm_}
if headers:
self._validate_headers(headers)
header.update(headers)
if not header["typ"]:
del header["typ"]
if is_payload_detached:
header["b64"] = False
elif "b64" in header:
# True is the standard value for b64, so no need for it
del header["b64"]
json_header = json.dumps(
header, separators=(",", ":"), cls=json_encoder, sort_keys=sort_headers
).encode()
segments.append(base64url_encode(json_header))
if is_payload_detached:
msg_payload = payload
else:
msg_payload = base64url_encode(payload)
segments.append(msg_payload)
# Segments
signing_input = b".".join(segments)
alg_obj = self.get_algorithm_by_name(algorithm_)
key = alg_obj.prepare_key(key)
signature = alg_obj.sign(signing_input, key)
segments.append(base64url_encode(signature))
# Don't put the payload content inside the encoded token when detached
if is_payload_detached:
segments[1] = b""
encoded_string = b".".join(segments)
return encoded_string.decode("utf-8")
def decode_complete(
self,
jwt: str | bytes,
key: AllowedPublicKeys | str | bytes = "",
algorithms: list[str] | None = None,
options: dict[str, Any] | None = None,
detached_payload: bytes | None = None,
**kwargs,
) -> dict[str, Any]:
if kwargs:
warnings.warn(
"passing additional kwargs to decode_complete() is deprecated "
"and will be removed in pyjwt version 3. "
f"Unsupported kwargs: {tuple(kwargs.keys())}",
RemovedInPyjwt3Warning,
)
if options is None:
options = {}
merged_options = {**self.options, **options}
verify_signature = merged_options["verify_signature"]
if verify_signature and not algorithms:
raise DecodeError(
'It is required that you pass in a value for the "algorithms" argument when calling decode().'
)
payload, signing_input, header, signature = self._load(jwt)
if header.get("b64", True) is False:
if detached_payload is None:
raise DecodeError(
'It is required that you pass in a value for the "detached_payload" argument to decode a message having the b64 header set to false.'
)
payload = detached_payload
signing_input = b".".join([signing_input.rsplit(b".", 1)[0], payload])
if verify_signature:
self._verify_signature(signing_input, header, signature, key, algorithms)
return {
"payload": payload,
"header": header,
"signature": signature,
}
def decode(
self,
jwt: str | bytes,
key: AllowedPublicKeys | str | bytes = "",
algorithms: list[str] | None = None,
options: dict[str, Any] | None = None,
detached_payload: bytes | None = None,
**kwargs,
) -> Any:
if kwargs:
warnings.warn(
"passing additional kwargs to decode() is deprecated "
"and will be removed in pyjwt version 3. "
f"Unsupported kwargs: {tuple(kwargs.keys())}",
RemovedInPyjwt3Warning,
)
decoded = self.decode_complete(
jwt, key, algorithms, options, detached_payload=detached_payload
)
return decoded["payload"]
def get_unverified_header(self, jwt: str | bytes) -> dict[str, Any]:
"""Returns back the JWT header parameters as a dict()
Note: The signature is not verified so the header parameters
should not be fully trusted until signature verification is complete
"""
headers = self._load(jwt)[2]
self._validate_headers(headers)
return headers
def _load(self, jwt: str | bytes) -> tuple[bytes, bytes, dict[str, Any], bytes]:
if isinstance(jwt, str):
jwt = jwt.encode("utf-8")
if not isinstance(jwt, bytes):
raise DecodeError(f"Invalid token type. Token must be a {bytes}")
try:
signing_input, crypto_segment = jwt.rsplit(b".", 1)
header_segment, payload_segment = signing_input.split(b".", 1)
except ValueError as err:
raise DecodeError("Not enough segments") from err
try:
header_data = base64url_decode(header_segment)
except (TypeError, binascii.Error) as err:
raise DecodeError("Invalid header padding") from err
try:
header = json.loads(header_data)
except ValueError as e:
raise DecodeError(f"Invalid header string: {e}") from e
if not isinstance(header, dict):
raise DecodeError("Invalid header string: must be a json object")
try:
payload = base64url_decode(payload_segment)
except (TypeError, binascii.Error) as err:
raise DecodeError("Invalid payload padding") from err
try:
signature = base64url_decode(crypto_segment)
except (TypeError, binascii.Error) as err:
raise DecodeError("Invalid crypto padding") from err
return (payload, signing_input, header, signature)
def _verify_signature(
self,
signing_input: bytes,
header: dict[str, Any],
signature: bytes,
key: AllowedPublicKeys | str | bytes = "",
algorithms: list[str] | None = None,
) -> None:
try:
alg = header["alg"]
except KeyError:
raise InvalidAlgorithmError("Algorithm not specified")
if not alg or (algorithms is not None and alg not in algorithms):
raise InvalidAlgorithmError("The specified alg value is not allowed")
try:
alg_obj = self.get_algorithm_by_name(alg)
except NotImplementedError as e:
raise InvalidAlgorithmError("Algorithm not supported") from e
prepared_key = alg_obj.prepare_key(key)
if not alg_obj.verify(signing_input, prepared_key, signature):
raise InvalidSignatureError("Signature verification failed")
def _validate_headers(self, headers: dict[str, Any]) -> None:
if "kid" in headers:
self._validate_kid(headers["kid"])
def _validate_kid(self, kid: Any) -> None:
if not isinstance(kid, str):
raise InvalidTokenError("Key ID header parameter must be a string")
_jws_global_obj = PyJWS()
encode = _jws_global_obj.encode
decode_complete = _jws_global_obj.decode_complete
decode = _jws_global_obj.decode
register_algorithm = _jws_global_obj.register_algorithm
unregister_algorithm = _jws_global_obj.unregister_algorithm
get_algorithm_by_name = _jws_global_obj.get_algorithm_by_name
get_unverified_header = _jws_global_obj.get_unverified_header
Hacked By AnonymousFox1.0, Coded By AnonymousFox