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Filename: //lib//python3/dist-packages///jwt/utils.py
import base64 import binascii import struct from .compat import binary_type, bytes_from_int, text_type try: from cryptography.hazmat.primitives.asymmetric.utils import ( decode_dss_signature, encode_dss_signature ) except ImportError: pass def force_unicode(value): if isinstance(value, binary_type): return value.decode('utf-8') elif isinstance(value, text_type): return value else: raise TypeError('Expected a string value') def force_bytes(value): if isinstance(value, text_type): return value.encode('utf-8') elif isinstance(value, binary_type): return value else: raise TypeError('Expected a string value') def base64url_decode(input): if isinstance(input, text_type): input = input.encode('ascii') rem = len(input) % 4 if rem > 0: input += b'=' * (4 - rem) return base64.urlsafe_b64decode(input) def base64url_encode(input): return base64.urlsafe_b64encode(input).replace(b'=', b'') def to_base64url_uint(val): if val < 0: raise ValueError('Must be a positive integer') int_bytes = bytes_from_int(val) if len(int_bytes) == 0: int_bytes = b'\x00' return base64url_encode(int_bytes) def from_base64url_uint(val): if isinstance(val, text_type): val = val.encode('ascii') data = base64url_decode(val) buf = struct.unpack('%sB' % len(data), data) return int(''.join(["%02x" % byte for byte in buf]), 16) def merge_dict(original, updates): if not updates: return original try: merged_options = original.copy() merged_options.update(updates) except (AttributeError, ValueError) as e: raise TypeError('original and updates must be a dictionary: %s' % e) return merged_options def number_to_bytes(num, num_bytes): padded_hex = '%0*x' % (2 * num_bytes, num) big_endian = binascii.a2b_hex(padded_hex.encode('ascii')) return big_endian def bytes_to_number(string): return int(binascii.b2a_hex(string), 16) def der_to_raw_signature(der_sig, curve): num_bits = curve.key_size num_bytes = (num_bits + 7) // 8 r, s = decode_dss_signature(der_sig) return number_to_bytes(r, num_bytes) + number_to_bytes(s, num_bytes) def raw_to_der_signature(raw_sig, curve): num_bits = curve.key_size num_bytes = (num_bits + 7) // 8 if len(raw_sig) != 2 * num_bytes: raise ValueError('Invalid signature') r = bytes_to_number(raw_sig[:num_bytes]) s = bytes_to_number(raw_sig[num_bytes:]) return encode_dss_signature(r, s)
./Ninja\.