""" Implementation of C# System.Guid References: https://referencesource.microsoft.com/#mscorlib/system/guid.cs === MIT License Copyright (c) 2018 Dusty.P https://github.com/dustinpianalto Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ from struct import Struct, pack from math import log # Constants for masking bytes MAXINT64 = 0xFFFFFFFFFFFFFFFF MAXINT16 = 0xFFFF MAXINT8 = 0xFF class Guid: """ A Global Unique Identifier (Guid) based on the one provided in C#'s System package The Guid is stored as a tuple of length 11 for easy processing and comparisons Attributes: guid (tuple): A tuple containing the guid """ def __init__(self, guid_tuple: tuple=()): """ Initialize the Guid Arguments: Union[int, str, bytes, short(int will be masked to short)]: The arguments can be in any of the following formats: (bytes(len 16)) (int(len <= 4), short, short, bytes(len 8)) (int(len <= 8), int(len <= 8)) (int(len <= 16)) (str) - str must be formatted 00000000-0000-0000-0000-000000000000 """ if bool(guid_tuple): if len(guid_tuple) == 11: if all(isinstance(t, int) for t in guid_tuple): s = Struct('I2H8B') guid = s.pack(guid_tuple[0], guid_tuple[1] & MAXINT16, guid_tuple[2] & MAXINT16, *guid_tuple[3]) self.guid = s.unpack(guid) else: raise RuntimeError('Every item in tuple must be an integer') else: raise RuntimeError('Tuple must be length 11 to create the guid') else: self.guid = (0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0) @classmethod def from_tuple(cls, guid_bytes: bytes): s = Struct('I2H8B') if len(guid_bytes) == 16: guid = s.pack((int(guid_bytes[3]) << 24) | (int(guid_bytes[2]) << 16) | (int(guid_bytes[1]) << 8) | guid_bytes[0], (int(guid_bytes[5]) << 8) | guid_bytes[4], (int(guid_bytes[7]) << 8) | guid_bytes[6], *guid_bytes[8:16] ) return cls(s.unpack(guid)) else: raise RuntimeError('Bytes object must be of length 16 to create a ' 'guid') @classmethod def from_int(cls, guid_int1: int, guid_int2: int=0): if cls.bytes_needed(guid_int1) <= 16 and guid_int2 == 0: b = pack('QQ', guid_int1 >> 64, guid_int1 & MAXINT64) elif cls.bytes_needed(guid_int1) <= 4 and cls.bytes_needed(guid_int2) <= 4: int1, int2 = (guid_int1 << 32), (guid_int2 & 0xFFFFFFFF) guid_int = int1 | int2 b = pack('Q8x', guid_int) elif cls.bytes_needed(guid_int1) <= 8 and cls.bytes_needed(guid_int2) <= 8: b = pack('QQ', guid_int1, guid_int2) else: raise RuntimeError('Integer is to large') guid = ((int(b[3]) << 24) | (int(b[2]) << 16) | (int(b[1]) << 8) | b[0], ((int(b[5]) << 8) | b[4]), ((int(b[7]) << 8) | b[6]), *b[8:16] ) return cls(s.unpack(guid)) @classmethod def from_string(cls, string: str): if len(string) == 36: if string[8] == '-' and string[13] == '-' and string[18] == '-' and string[23] == '-': guid_str = string.split('-') try: guid = (int(guid_str[0], 16), int(guid_str[1], 16), int(guid_str[2], 16), int(guid_str[3], 16) >> 8, int(guid_str[3], 16) & MAXINT8, int(guid_str[4], 16) >> 40, int(guid_str[4], 16) >> 32, int(guid_str[4], 16) >> 24, int(guid_str[4], 16) >> 16, int(guid_str[4], 16) >> 8, int(guid_str[4], 16) & MAXINT8, ) return cls(guid) except ValueError: raise TypeError('String is not formatted properly must be in format ' '00000000-0000-0000-0000-000000000000') def to_string(self): output = '' output += self.hexs_to_chars(self.guid[0] >> 24, self.guid[0] >> 16) output += self.hexs_to_chars(self.guid[0] >> 8, self.guid[0]) output += '-' output += self.hexs_to_chars(self.guid[1] >> 8, self.guid[1]) output += '-' output += self.hexs_to_chars(self.guid[2] >> 8, self.guid[2]) output += '-' output += self.hexs_to_chars(self.guid[3], self.guid[4]) output += '-' output += self.hexs_to_chars(self.guid[5], self.guid[6]) output += self.hexs_to_chars(self.guid[7], self.guid[8]) output += self.hexs_to_chars(self.guid[9], self.guid[10]) return output def to_byte_array(self): b = bytearray(16) b[0] = self.guid[0] & MAXINT8 b[1] = (self.guid[0] >> 8) & MAXINT8 b[2] = (self.guid[0] >> 16) & MAXINT8 b[3] = (self.guid[0] >> 24) & MAXINT8 b[4] = self.guid[1] & MAXINT8 b[5] = (self.guid[1] >> 8) & MAXINT8 b[6] = self.guid[2] & MAXINT8 b[7] = (self.guid[2] >> 8) & MAXINT8 b[8] = self.guid[3] & MAXINT8 b[9] = self.guid[4] & MAXINT8 b[10] = self.guid[5] & MAXINT8 b[11] = self.guid[6] & MAXINT8 b[12] = self.guid[7] & MAXINT8 b[13] = self.guid[8] & MAXINT8 b[14] = self.guid[9] & MAXINT8 b[15] = self.guid[10] & MAXINT8 return b def hexs_to_chars(self, _a, _b): out = f'{self.hex_to_char(_a>>4)}{self.hex_to_char(_a)}{self.hex_to_char(_b>>4)}{self.hex_to_char(_b)}' return out @staticmethod def bytes_needed(a): if a == 0: return 1 return int(log(a, 256)) + 1 @staticmethod def hex_to_char(a: int): a = a & 0xf out = chr(a - 10 + 0x61 if a > 9 else a + 0x30) return out def __hash__(self): t = self.guid return t[0] ^ ((int(t[1]) << 16) | int(t[2])) ^ ((int(t[5]) << 24) | t[10]) def __eq__(self, other): if other is None or not isinstance(other, Guid): return False if other.guid[0] != self.guid[0]: return False if other.guid[1] != self.guid[1]: return False if other.guid[2] != self.guid[2]: return False if other.guid[3] != self.guid[3]: return False if other.guid[4] != self.guid[4]: return False if other.guid[5] != self.guid[5]: return False if other.guid[6] != self.guid[6]: return False if other.guid[7] != self.guid[7]: return False if other.guid[8] != self.guid[8]: return False if other.guid[9] != self.guid[9]: return False if other.guid[10] != self.guid[10]: return False return True def __bool__(self): return not (self.guid == (0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0)) def __str__(self): return self.to_string() def __repr__(self): return f''