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F1l3 Manager

Current Directory: /opt/cloudlinux/venv/lib/python3.11/site-packages/jwt
/opt/cloudlinux/venv/lib/python3.11/site-packages/jwt/
Viewing File: /opt/cloudlinux/venv/lib/python3.11/site-packages/jwt/algorithms.py
from __future__ import annotations import hashlib import hmac import json import sys from abc import ABC, abstractmethod from typing import TYPE_CHECKING, Any, ClassVar, NoReturn, Union, cast, overload from .exceptions import InvalidKeyError from .types import HashlibHash, JWKDict from .utils import ( base64url_decode, base64url_encode, der_to_raw_signature, force_bytes, from_base64url_uint, is_pem_format, is_ssh_key, raw_to_der_signature, to_base64url_uint, ) if sys.version_info >= (3, 8): from typing import Literal else: from typing_extensions import Literal try: from cryptography.exceptions import InvalidSignature from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives import hashes from cryptography.hazmat.primitives.asymmetric import padding from cryptography.hazmat.primitives.asymmetric.ec import ( ECDSA, SECP256K1, SECP256R1, SECP384R1, SECP521R1, EllipticCurve, EllipticCurvePrivateKey, EllipticCurvePrivateNumbers, EllipticCurvePublicKey, EllipticCurvePublicNumbers, ) from cryptography.hazmat.primitives.asymmetric.ed448 import ( Ed448PrivateKey, Ed448PublicKey, ) from cryptography.hazmat.primitives.asymmetric.ed25519 import ( Ed25519PrivateKey, Ed25519PublicKey, ) from cryptography.hazmat.primitives.asymmetric.rsa import ( RSAPrivateKey, RSAPrivateNumbers, RSAPublicKey, RSAPublicNumbers, rsa_crt_dmp1, rsa_crt_dmq1, rsa_crt_iqmp, rsa_recover_prime_factors, ) from cryptography.hazmat.primitives.serialization import ( Encoding, NoEncryption, PrivateFormat, PublicFormat, load_pem_private_key, load_pem_public_key, load_ssh_public_key, ) has_crypto = True except ModuleNotFoundError: has_crypto = False if TYPE_CHECKING: # Type aliases for convenience in algorithms method signatures AllowedRSAKeys = RSAPrivateKey | RSAPublicKey AllowedECKeys = EllipticCurvePrivateKey | EllipticCurvePublicKey AllowedOKPKeys = ( Ed25519PrivateKey | Ed25519PublicKey | Ed448PrivateKey | Ed448PublicKey ) AllowedKeys = AllowedRSAKeys | AllowedECKeys | AllowedOKPKeys AllowedPrivateKeys = ( RSAPrivateKey | EllipticCurvePrivateKey | Ed25519PrivateKey | Ed448PrivateKey ) AllowedPublicKeys = ( RSAPublicKey | EllipticCurvePublicKey | Ed25519PublicKey | Ed448PublicKey ) requires_cryptography = { "RS256", "RS384", "RS512", "ES256", "ES256K", "ES384", "ES521", "ES512", "PS256", "PS384", "PS512", "EdDSA", } def get_default_algorithms() -> dict[str, Algorithm]: """ Returns the algorithms that are implemented by the library. """ default_algorithms = { "none": NoneAlgorithm(), "HS256": HMACAlgorithm(HMACAlgorithm.SHA256), "HS384": HMACAlgorithm(HMACAlgorithm.SHA384), "HS512": HMACAlgorithm(HMACAlgorithm.SHA512), } if has_crypto: default_algorithms.update( { "RS256": RSAAlgorithm(RSAAlgorithm.SHA256), "RS384": RSAAlgorithm(RSAAlgorithm.SHA384), "RS512": RSAAlgorithm(RSAAlgorithm.SHA512), "ES256": ECAlgorithm(ECAlgorithm.SHA256), "ES256K": ECAlgorithm(ECAlgorithm.SHA256), "ES384": ECAlgorithm(ECAlgorithm.SHA384), "ES521": ECAlgorithm(ECAlgorithm.SHA512), "ES512": ECAlgorithm( ECAlgorithm.SHA512 ), # Backward compat for #219 fix "PS256": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA256), "PS384": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA384), "PS512": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA512), "EdDSA": OKPAlgorithm(), } ) return default_algorithms class Algorithm(ABC): """ The interface for an algorithm used to sign and verify tokens. """ def compute_hash_digest(self, bytestr: bytes) -> bytes: """ Compute a hash digest using the specified algorithm's hash algorithm. If there is no hash algorithm, raises a NotImplementedError. """ # lookup self.hash_alg if defined in a way that mypy can understand hash_alg = getattr(self, "hash_alg", None) if hash_alg is None: raise NotImplementedError if ( has_crypto and isinstance(hash_alg, type) and issubclass(hash_alg, hashes.HashAlgorithm) ): digest = hashes.Hash(hash_alg(), backend=default_backend()) digest.update(bytestr) return bytes(digest.finalize()) else: return bytes(hash_alg(bytestr).digest()) @abstractmethod def prepare_key(self, key: Any) -> Any: """ Performs necessary validation and conversions on the key and returns the key value in the proper format for sign() and verify(). """ @abstractmethod def sign(self, msg: bytes, key: Any) -> bytes: """ Returns a digital signature for the specified message using the specified key value. """ @abstractmethod def verify(self, msg: bytes, key: Any, sig: bytes) -> bool: """ Verifies that the specified digital signature is valid for the specified message and key values. """ @overload @staticmethod @abstractmethod def to_jwk(key_obj, as_dict: Literal[True]) -> JWKDict: ... # pragma: no cover @overload @staticmethod @abstractmethod def to_jwk(key_obj, as_dict: Literal[False] = False) -> str: ... # pragma: no cover @staticmethod @abstractmethod def to_jwk(key_obj, as_dict: bool = False) -> Union[JWKDict, str]: """ Serializes a given key into a JWK """ @staticmethod @abstractmethod def from_jwk(jwk: str | JWKDict) -> Any: """ Deserializes a given key from JWK back into a key object """ class NoneAlgorithm(Algorithm): """ Placeholder for use when no signing or verification operations are required. """ def prepare_key(self, key: str | None) -> None: if key == "": key = None if key is not None: raise InvalidKeyError('When alg = "none", key value must be None.') return key def sign(self, msg: bytes, key: None) -> bytes: return b"" def verify(self, msg: bytes, key: None, sig: bytes) -> bool: return False @staticmethod def to_jwk(key_obj: Any, as_dict: bool = False) -> NoReturn: raise NotImplementedError() @staticmethod def from_jwk(jwk: str | JWKDict) -> NoReturn: raise NotImplementedError() class HMACAlgorithm(Algorithm): """ Performs signing and verification operations using HMAC and the specified hash function. """ SHA256: ClassVar[HashlibHash] = hashlib.sha256 SHA384: ClassVar[HashlibHash] = hashlib.sha384 SHA512: ClassVar[HashlibHash] = hashlib.sha512 def __init__(self, hash_alg: HashlibHash) -> None: self.hash_alg = hash_alg def prepare_key(self, key: str | bytes) -> bytes: key_bytes = force_bytes(key) if is_pem_format(key_bytes) or is_ssh_key(key_bytes): raise InvalidKeyError( "The specified key is an asymmetric key or x509 certificate and" " should not be used as an HMAC secret." ) return key_bytes @overload @staticmethod def to_jwk(key_obj: str | bytes, as_dict: Literal[True]) -> JWKDict: ... # pragma: no cover @overload @staticmethod def to_jwk(key_obj: str | bytes, as_dict: Literal[False] = False) -> str: ... # pragma: no cover @staticmethod def to_jwk(key_obj: str | bytes, as_dict: bool = False) -> Union[JWKDict, str]: jwk = { "k": base64url_encode(force_bytes(key_obj)).decode(), "kty": "oct", } if as_dict: return jwk else: return json.dumps(jwk) @staticmethod def from_jwk(jwk: str | JWKDict) -> bytes: try: if isinstance(jwk, str): obj: JWKDict = json.loads(jwk) elif isinstance(jwk, dict): obj = jwk else: raise ValueError except ValueError: raise InvalidKeyError("Key is not valid JSON") if obj.get("kty") != "oct": raise InvalidKeyError("Not an HMAC key") return base64url_decode(obj["k"]) def sign(self, msg: bytes, key: bytes) -> bytes: return hmac.new(key, msg, self.hash_alg).digest() def verify(self, msg: bytes, key: bytes, sig: bytes) -> bool: return hmac.compare_digest(sig, self.sign(msg, key)) if has_crypto: class RSAAlgorithm(Algorithm): """ Performs signing and verification operations using RSASSA-PKCS-v1_5 and the specified hash function. """ SHA256: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA256 SHA384: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA384 SHA512: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA512 def __init__(self, hash_alg: type[hashes.HashAlgorithm]) -> None: self.hash_alg = hash_alg def prepare_key(self, key: AllowedRSAKeys | str | bytes) -> AllowedRSAKeys: if isinstance(key, (RSAPrivateKey, RSAPublicKey)): return key if not isinstance(key, (bytes, str)): raise TypeError("Expecting a PEM-formatted key.") key_bytes = force_bytes(key) try: if key_bytes.startswith(b"ssh-rsa"): return cast(RSAPublicKey, load_ssh_public_key(key_bytes)) else: return cast( RSAPrivateKey, load_pem_private_key(key_bytes, password=None) ) except ValueError: return cast(RSAPublicKey, load_pem_public_key(key_bytes)) @overload @staticmethod def to_jwk(key_obj: AllowedRSAKeys, as_dict: Literal[True]) -> JWKDict: ... # pragma: no cover @overload @staticmethod def to_jwk(key_obj: AllowedRSAKeys, as_dict: Literal[False] = False) -> str: ... # pragma: no cover @staticmethod def to_jwk( key_obj: AllowedRSAKeys, as_dict: bool = False ) -> Union[JWKDict, str]: obj: dict[str, Any] | None = None if hasattr(key_obj, "private_numbers"): # Private key numbers = key_obj.private_numbers() obj = { "kty": "RSA", "key_ops": ["sign"], "n": to_base64url_uint(numbers.public_numbers.n).decode(), "e": to_base64url_uint(numbers.public_numbers.e).decode(), "d": to_base64url_uint(numbers.d).decode(), "p": to_base64url_uint(numbers.p).decode(), "q": to_base64url_uint(numbers.q).decode(), "dp": to_base64url_uint(numbers.dmp1).decode(), "dq": to_base64url_uint(numbers.dmq1).decode(), "qi": to_base64url_uint(numbers.iqmp).decode(), } elif hasattr(key_obj, "verify"): # Public key numbers = key_obj.public_numbers() obj = { "kty": "RSA", "key_ops": ["verify"], "n": to_base64url_uint(numbers.n).decode(), "e": to_base64url_uint(numbers.e).decode(), } else: raise InvalidKeyError("Not a public or private key") if as_dict: return obj else: return json.dumps(obj) @staticmethod def from_jwk(jwk: str | JWKDict) -> AllowedRSAKeys: try: if isinstance(jwk, str): obj = json.loads(jwk) elif isinstance(jwk, dict): obj = jwk else: raise ValueError except ValueError: raise InvalidKeyError("Key is not valid JSON") if obj.get("kty") != "RSA": raise InvalidKeyError("Not an RSA key") if "d" in obj and "e" in obj and "n" in obj: # Private key if "oth" in obj: raise InvalidKeyError( "Unsupported RSA private key: > 2 primes not supported" ) other_props = ["p", "q", "dp", "dq", "qi"] props_found = [prop in obj for prop in other_props] any_props_found = any(props_found) if any_props_found and not all(props_found): raise InvalidKeyError( "RSA key must include all parameters if any are present besides d" ) public_numbers = RSAPublicNumbers( from_base64url_uint(obj["e"]), from_base64url_uint(obj["n"]), ) if any_props_found: numbers = RSAPrivateNumbers( d=from_base64url_uint(obj["d"]), p=from_base64url_uint(obj["p"]), q=from_base64url_uint(obj["q"]), dmp1=from_base64url_uint(obj["dp"]), dmq1=from_base64url_uint(obj["dq"]), iqmp=from_base64url_uint(obj["qi"]), public_numbers=public_numbers, ) else: d = from_base64url_uint(obj["d"]) p, q = rsa_recover_prime_factors( public_numbers.n, d, public_numbers.e ) numbers = RSAPrivateNumbers( d=d, p=p, q=q, dmp1=rsa_crt_dmp1(d, p), dmq1=rsa_crt_dmq1(d, q), iqmp=rsa_crt_iqmp(p, q), public_numbers=public_numbers, ) return numbers.private_key() elif "n" in obj and "e" in obj: # Public key return RSAPublicNumbers( from_base64url_uint(obj["e"]), from_base64url_uint(obj["n"]), ).public_key() else: raise InvalidKeyError("Not a public or private key") def sign(self, msg: bytes, key: RSAPrivateKey) -> bytes: return key.sign(msg, padding.PKCS1v15(), self.hash_alg()) def verify(self, msg: bytes, key: RSAPublicKey, sig: bytes) -> bool: try: key.verify(sig, msg, padding.PKCS1v15(), self.hash_alg()) return True except InvalidSignature: return False class ECAlgorithm(Algorithm): """ Performs signing and verification operations using ECDSA and the specified hash function """ SHA256: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA256 SHA384: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA384 SHA512: ClassVar[type[hashes.HashAlgorithm]] = hashes.SHA512 def __init__(self, hash_alg: type[hashes.HashAlgorithm]) -> None: self.hash_alg = hash_alg def prepare_key(self, key: AllowedECKeys | str | bytes) -> AllowedECKeys: if isinstance(key, (EllipticCurvePrivateKey, EllipticCurvePublicKey)): return key if not isinstance(key, (bytes, str)): raise TypeError("Expecting a PEM-formatted key.") key_bytes = force_bytes(key) # Attempt to load key. We don't know if it's # a Signing Key or a Verifying Key, so we try # the Verifying Key first. try: if key_bytes.startswith(b"ecdsa-sha2-"): crypto_key = load_ssh_public_key(key_bytes) else: crypto_key = load_pem_public_key(key_bytes) # type: ignore[assignment] except ValueError: crypto_key = load_pem_private_key(key_bytes, password=None) # type: ignore[assignment] # Explicit check the key to prevent confusing errors from cryptography if not isinstance( crypto_key, (EllipticCurvePrivateKey, EllipticCurvePublicKey) ): raise InvalidKeyError( "Expecting a EllipticCurvePrivateKey/EllipticCurvePublicKey. Wrong key provided for ECDSA algorithms" ) return crypto_key def sign(self, msg: bytes, key: EllipticCurvePrivateKey) -> bytes: der_sig = key.sign(msg, ECDSA(self.hash_alg())) return der_to_raw_signature(der_sig, key.curve) def verify(self, msg: bytes, key: "AllowedECKeys", sig: bytes) -> bool: try: der_sig = raw_to_der_signature(sig, key.curve) except ValueError: return False try: public_key = ( key.public_key() if isinstance(key, EllipticCurvePrivateKey) else key ) public_key.verify(der_sig, msg, ECDSA(self.hash_alg())) return True except InvalidSignature: return False @overload @staticmethod def to_jwk(key_obj: AllowedECKeys, as_dict: Literal[True]) -> JWKDict: ... # pragma: no cover @overload @staticmethod def to_jwk(key_obj: AllowedECKeys, as_dict: Literal[False] = False) -> str: ... # pragma: no cover @staticmethod def to_jwk( key_obj: AllowedECKeys, as_dict: bool = False ) -> Union[JWKDict, str]: if isinstance(key_obj, EllipticCurvePrivateKey): public_numbers = key_obj.public_key().public_numbers() elif isinstance(key_obj, EllipticCurvePublicKey): public_numbers = key_obj.public_numbers() else: raise InvalidKeyError("Not a public or private key") if isinstance(key_obj.curve, SECP256R1): crv = "P-256" elif isinstance(key_obj.curve, SECP384R1): crv = "P-384" elif isinstance(key_obj.curve, SECP521R1): crv = "P-521" elif isinstance(key_obj.curve, SECP256K1): crv = "secp256k1" else: raise InvalidKeyError(f"Invalid curve: {key_obj.curve}") obj: dict[str, Any] = { "kty": "EC", "crv": crv, "x": to_base64url_uint(public_numbers.x).decode(), "y": to_base64url_uint(public_numbers.y).decode(), } if isinstance(key_obj, EllipticCurvePrivateKey): obj["d"] = to_base64url_uint( key_obj.private_numbers().private_value ).decode() if as_dict: return obj else: return json.dumps(obj) @staticmethod def from_jwk(jwk: str | JWKDict) -> AllowedECKeys: try: if isinstance(jwk, str): obj = json.loads(jwk) elif isinstance(jwk, dict): obj = jwk else: raise ValueError except ValueError: raise InvalidKeyError("Key is not valid JSON") if obj.get("kty") != "EC": raise InvalidKeyError("Not an Elliptic curve key") if "x" not in obj or "y" not in obj: raise InvalidKeyError("Not an Elliptic curve key") x = base64url_decode(obj.get("x")) y = base64url_decode(obj.get("y")) curve = obj.get("crv") curve_obj: EllipticCurve if curve == "P-256": if len(x) == len(y) == 32: curve_obj = SECP256R1() else: raise InvalidKeyError("Coords should be 32 bytes for curve P-256") elif curve == "P-384": if len(x) == len(y) == 48: curve_obj = SECP384R1() else: raise InvalidKeyError("Coords should be 48 bytes for curve P-384") elif curve == "P-521": if len(x) == len(y) == 66: curve_obj = SECP521R1() else: raise InvalidKeyError("Coords should be 66 bytes for curve P-521") elif curve == "secp256k1": if len(x) == len(y) == 32: curve_obj = SECP256K1() else: raise InvalidKeyError( "Coords should be 32 bytes for curve secp256k1" ) else: raise InvalidKeyError(f"Invalid curve: {curve}") public_numbers = EllipticCurvePublicNumbers( x=int.from_bytes(x, byteorder="big"), y=int.from_bytes(y, byteorder="big"), curve=curve_obj, ) if "d" not in obj: return public_numbers.public_key() d = base64url_decode(obj.get("d")) if len(d) != len(x): raise InvalidKeyError( "D should be {} bytes for curve {}", len(x), curve ) return EllipticCurvePrivateNumbers( int.from_bytes(d, byteorder="big"), public_numbers ).private_key() class RSAPSSAlgorithm(RSAAlgorithm): """ Performs a signature using RSASSA-PSS with MGF1 """ def sign(self, msg: bytes, key: RSAPrivateKey) -> bytes: return key.sign( msg, padding.PSS( mgf=padding.MGF1(self.hash_alg()), salt_length=self.hash_alg().digest_size, ), self.hash_alg(), ) def verify(self, msg: bytes, key: RSAPublicKey, sig: bytes) -> bool: try: key.verify( sig, msg, padding.PSS( mgf=padding.MGF1(self.hash_alg()), salt_length=self.hash_alg().digest_size, ), self.hash_alg(), ) return True except InvalidSignature: return False class OKPAlgorithm(Algorithm): """ Performs signing and verification operations using EdDSA This class requires ``cryptography>=2.6`` to be installed. """ def __init__(self, **kwargs: Any) -> None: pass def prepare_key(self, key: AllowedOKPKeys | str | bytes) -> AllowedOKPKeys: if isinstance(key, (bytes, str)): key_str = key.decode("utf-8") if isinstance(key, bytes) else key key_bytes = key.encode("utf-8") if isinstance(key, str) else key if "-----BEGIN PUBLIC" in key_str: key = load_pem_public_key(key_bytes) # type: ignore[assignment] elif "-----BEGIN PRIVATE" in key_str: key = load_pem_private_key(key_bytes, password=None) # type: ignore[assignment] elif key_str[0:4] == "ssh-": key = load_ssh_public_key(key_bytes) # type: ignore[assignment] # Explicit check the key to prevent confusing errors from cryptography if not isinstance( key, (Ed25519PrivateKey, Ed25519PublicKey, Ed448PrivateKey, Ed448PublicKey), ): raise InvalidKeyError( "Expecting a EllipticCurvePrivateKey/EllipticCurvePublicKey. Wrong key provided for EdDSA algorithms" ) return key def sign( self, msg: str | bytes, key: Ed25519PrivateKey | Ed448PrivateKey ) -> bytes: """ Sign a message ``msg`` using the EdDSA private key ``key`` :param str|bytes msg: Message to sign :param Ed25519PrivateKey}Ed448PrivateKey key: A :class:`.Ed25519PrivateKey` or :class:`.Ed448PrivateKey` isinstance :return bytes signature: The signature, as bytes """ msg_bytes = msg.encode("utf-8") if isinstance(msg, str) else msg return key.sign(msg_bytes) def verify( self, msg: str | bytes, key: AllowedOKPKeys, sig: str | bytes ) -> bool: """ Verify a given ``msg`` against a signature ``sig`` using the EdDSA key ``key`` :param str|bytes sig: EdDSA signature to check ``msg`` against :param str|bytes msg: Message to sign :param Ed25519PrivateKey|Ed25519PublicKey|Ed448PrivateKey|Ed448PublicKey key: A private or public EdDSA key instance :return bool verified: True if signature is valid, False if not. """ try: msg_bytes = msg.encode("utf-8") if isinstance(msg, str) else msg sig_bytes = sig.encode("utf-8") if isinstance(sig, str) else sig public_key = ( key.public_key() if isinstance(key, (Ed25519PrivateKey, Ed448PrivateKey)) else key ) public_key.verify(sig_bytes, msg_bytes) return True # If no exception was raised, the signature is valid. except InvalidSignature: return False @overload @staticmethod def to_jwk(key: AllowedOKPKeys, as_dict: Literal[True]) -> JWKDict: ... # pragma: no cover @overload @staticmethod def to_jwk(key: AllowedOKPKeys, as_dict: Literal[False] = False) -> str: ... # pragma: no cover @staticmethod def to_jwk(key: AllowedOKPKeys, as_dict: bool = False) -> Union[JWKDict, str]: if isinstance(key, (Ed25519PublicKey, Ed448PublicKey)): x = key.public_bytes( encoding=Encoding.Raw, format=PublicFormat.Raw, ) crv = "Ed25519" if isinstance(key, Ed25519PublicKey) else "Ed448" obj = { "x": base64url_encode(force_bytes(x)).decode(), "kty": "OKP", "crv": crv, } if as_dict: return obj else: return json.dumps(obj) if isinstance(key, (Ed25519PrivateKey, Ed448PrivateKey)): d = key.private_bytes( encoding=Encoding.Raw, format=PrivateFormat.Raw, encryption_algorithm=NoEncryption(), ) x = key.public_key().public_bytes( encoding=Encoding.Raw, format=PublicFormat.Raw, ) crv = "Ed25519" if isinstance(key, Ed25519PrivateKey) else "Ed448" obj = { "x": base64url_encode(force_bytes(x)).decode(), "d": base64url_encode(force_bytes(d)).decode(), "kty": "OKP", "crv": crv, } if as_dict: return obj else: return json.dumps(obj) raise InvalidKeyError("Not a public or private key") @staticmethod def from_jwk(jwk: str | JWKDict) -> AllowedOKPKeys: try: if isinstance(jwk, str): obj = json.loads(jwk) elif isinstance(jwk, dict): obj = jwk else: raise ValueError except ValueError: raise InvalidKeyError("Key is not valid JSON") if obj.get("kty") != "OKP": raise InvalidKeyError("Not an Octet Key Pair") curve = obj.get("crv") if curve != "Ed25519" and curve != "Ed448": raise InvalidKeyError(f"Invalid curve: {curve}") if "x" not in obj: raise InvalidKeyError('OKP should have "x" parameter') x = base64url_decode(obj.get("x")) try: if "d" not in obj: if curve == "Ed25519": return Ed25519PublicKey.from_public_bytes(x) return Ed448PublicKey.from_public_bytes(x) d = base64url_decode(obj.get("d")) if curve == "Ed25519": return Ed25519PrivateKey.from_private_bytes(d) return Ed448PrivateKey.from_private_bytes(d) except ValueError as err: raise InvalidKeyError("Invalid key parameter") from err
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