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d6fe66ddee
This is only present in Python 3.8 and above. BUG: https://bugzilla.samba.org/show_bug.cgi?id=15575 Signed-off-by: Jo Sutton <josutton@catalyst.net.nz> Reviewed-by: Andrew Bartlett <abartlet@samba.org>
398 lines
12 KiB
Python
398 lines
12 KiB
Python
# Unix SMB/CIFS implementation.
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# Copyright (C) Catalyst.Net Ltd 2023
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#
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <https://www.gnu.org/licenses/>.
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#
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"""Group Key Distribution Service module"""
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from enum import Enum
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from functools import total_ordering
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from typing import Optional, Tuple
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from cryptography.hazmat.primitives import hashes
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from samba import _glue
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from samba.dcerpc import gkdi, misc
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from samba.ndr import ndr_pack, ndr_unpack
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from samba.nt_time import NtTime, NtTimeDelta
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uint64_max: int = 2**64 - 1
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L1_KEY_ITERATION: int = _glue.GKDI_L1_KEY_ITERATION
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L2_KEY_ITERATION: int = _glue.GKDI_L2_KEY_ITERATION
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KEY_CYCLE_DURATION: NtTimeDelta = _glue.GKDI_KEY_CYCLE_DURATION
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MAX_CLOCK_SKEW: NtTimeDelta = _glue.GKDI_MAX_CLOCK_SKEW
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KEY_LEN_BYTES = 64
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class Algorithm(Enum):
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SHA1 = "SHA1"
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SHA256 = "SHA256"
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SHA384 = "SHA384"
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SHA512 = "SHA512"
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def algorithm(self) -> hashes.HashAlgorithm:
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if self is Algorithm.SHA1:
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return hashes.SHA1()
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if self is Algorithm.SHA256:
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return hashes.SHA256()
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if self is Algorithm.SHA384:
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return hashes.SHA384()
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if self is Algorithm.SHA512:
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return hashes.SHA512()
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raise RuntimeError("unknown hash algorithm {self}")
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def __repr__(self) -> str:
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return str(self)
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@staticmethod
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def from_kdf_parameters(kdf_param: Optional[bytes]) -> "Algorithm":
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if not kdf_param:
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return Algorithm.SHA256 # the default used by Windows.
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kdf_parameters = ndr_unpack(gkdi.KdfParameters, kdf_param)
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return Algorithm(kdf_parameters.hash_algorithm)
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class GkidType(Enum):
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DEFAULT = object()
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L0_SEED_KEY = object()
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L1_SEED_KEY = object()
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L2_SEED_KEY = object()
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def description(self) -> str:
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if self is GkidType.DEFAULT:
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return "a default GKID"
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if self is GkidType.L0_SEED_KEY:
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return "an L0 seed key"
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if self is GkidType.L1_SEED_KEY:
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return "an L1 seed key"
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if self is GkidType.L2_SEED_KEY:
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return "an L2 seed key"
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raise RuntimeError("unknown GKID type {self}")
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class InvalidDerivation(Exception):
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pass
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class UndefinedStartTime(Exception):
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pass
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@total_ordering
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class Gkid:
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__slots__ = ["_l0_idx", "_l1_idx", "_l2_idx"]
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max_l0_idx = 0x7FFF_FFFF
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def __init__(self, l0_idx: int, l1_idx: int, l2_idx: int) -> None:
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if not -1 <= l0_idx <= Gkid.max_l0_idx:
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raise ValueError(f"L0 index {l0_idx} out of range")
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if not -1 <= l1_idx < L1_KEY_ITERATION:
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raise ValueError(f"L1 index {l1_idx} out of range")
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if not -1 <= l2_idx < L2_KEY_ITERATION:
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raise ValueError(f"L2 index {l2_idx} out of range")
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if l0_idx == -1 and l1_idx != -1:
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raise ValueError("invalid combination of negative and non‐negative indices")
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if l1_idx == -1 and l2_idx != -1:
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raise ValueError("invalid combination of negative and non‐negative indices")
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self._l0_idx = l0_idx
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self._l1_idx = l1_idx
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self._l2_idx = l2_idx
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@property
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def l0_idx(self) -> int:
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return self._l0_idx
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@property
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def l1_idx(self) -> int:
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return self._l1_idx
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@property
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def l2_idx(self) -> int:
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return self._l2_idx
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def gkid_type(self) -> GkidType:
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if self.l0_idx == -1:
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return GkidType.DEFAULT
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if self.l1_idx == -1:
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return GkidType.L0_SEED_KEY
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if self.l2_idx == -1:
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return GkidType.L1_SEED_KEY
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return GkidType.L2_SEED_KEY
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def wrapped_l1_idx(self) -> int:
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if self.l1_idx == -1:
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return L1_KEY_ITERATION
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return self.l1_idx
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def wrapped_l2_idx(self) -> int:
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if self.l2_idx == -1:
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return L2_KEY_ITERATION
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return self.l2_idx
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def derive_l1_seed_key(self) -> "Gkid":
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gkid_type = self.gkid_type()
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if (
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gkid_type is not GkidType.L0_SEED_KEY
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and gkid_type is not GkidType.L1_SEED_KEY
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):
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raise InvalidDerivation(
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"Invalid attempt to derive an L1 seed key from"
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f" {gkid_type.description()}"
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)
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if self.l1_idx == 0:
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raise InvalidDerivation("No further derivation of L1 seed keys is possible")
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return Gkid(self.l0_idx, self.wrapped_l1_idx() - 1, self.l2_idx)
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def derive_l2_seed_key(self) -> "Gkid":
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gkid_type = self.gkid_type()
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if (
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gkid_type is not GkidType.L1_SEED_KEY
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and gkid_type is not GkidType.L2_SEED_KEY
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):
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raise InvalidDerivation(
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f"Attempt to derive an L2 seed key from {gkid_type.description()}"
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)
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if self.l2_idx == 0:
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raise InvalidDerivation("No further derivation of L2 seed keys is possible")
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return Gkid(self.l0_idx, self.l1_idx, self.wrapped_l2_idx() - 1)
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def __str__(self) -> str:
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return f"Gkid({self.l0_idx}, {self.l1_idx}, {self.l2_idx})"
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def __repr__(self) -> str:
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cls = type(self)
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return (
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f"{cls.__qualname__}({repr(self.l0_idx)}, {repr(self.l1_idx)},"
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f" {repr(self.l2_idx)})"
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)
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def __eq__(self, other: object) -> bool:
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if not isinstance(other, Gkid):
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return NotImplemented
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return (self.l0_idx, self.l1_idx, self.l2_idx) == (
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other.l0_idx,
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other.l1_idx,
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other.l2_idx,
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)
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def __lt__(self, other: object) -> bool:
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if not isinstance(other, Gkid):
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return NotImplemented
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def as_tuple(gkid: Gkid) -> Tuple[int, int, int]:
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l0_idx, l1_idx, l2_idx = gkid.l0_idx, gkid.l1_idx, gkid.l2_idx
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# DEFAULT is considered less than everything else, so that the
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# lexical ordering requirement in [MS-GKDI] 3.1.4.1.3 (GetKey) makes
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# sense.
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if gkid.gkid_type() is not GkidType.DEFAULT:
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# Use the wrapped indices so that L1 seed keys are considered
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# greater than their children L2 seed keys, and L0 seed keys are
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# considered greater than their children L1 seed keys.
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l1_idx = gkid.wrapped_l1_idx()
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l2_idx = gkid.wrapped_l2_idx()
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return l0_idx, l1_idx, l2_idx
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return as_tuple(self) < as_tuple(other)
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def __hash__(self) -> int:
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return hash((self.l0_idx, self.l1_idx, self.l2_idx))
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@staticmethod
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def default() -> "Gkid":
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return Gkid(-1, -1, -1)
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@staticmethod
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def l0_seed_key(l0_idx: int) -> "Gkid":
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return Gkid(l0_idx, -1, -1)
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@staticmethod
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def l1_seed_key(l0_idx: int, l1_idx: int) -> "Gkid":
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return Gkid(l0_idx, l1_idx, -1)
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@staticmethod
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def from_nt_time(nt_time: NtTime) -> "Gkid":
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l0 = nt_time // (L1_KEY_ITERATION * L2_KEY_ITERATION * KEY_CYCLE_DURATION)
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l1 = (
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nt_time
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% (L1_KEY_ITERATION * L2_KEY_ITERATION * KEY_CYCLE_DURATION)
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// (L2_KEY_ITERATION * KEY_CYCLE_DURATION)
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)
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l2 = nt_time % (L2_KEY_ITERATION * KEY_CYCLE_DURATION) // KEY_CYCLE_DURATION
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return Gkid(l0, l1, l2)
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def start_nt_time(self) -> NtTime:
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gkid_type = self.gkid_type()
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if gkid_type is not GkidType.L2_SEED_KEY:
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raise UndefinedStartTime(
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f"{gkid_type.description()} has no defined start time"
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)
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start_time = NtTime(
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(
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self.l0_idx * L1_KEY_ITERATION * L2_KEY_ITERATION
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+ self.l1_idx * L2_KEY_ITERATION
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+ self.l2_idx
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)
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* KEY_CYCLE_DURATION
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)
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if not 0 <= start_time <= uint64_max:
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raise OverflowError(f"start time {start_time} out of range")
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return start_time
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class SeedKeyPair:
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__slots__ = ["l1_key", "l2_key", "gkid", "hash_algorithm", "root_key_id"]
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def __init__(
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self,
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l1_key: Optional[bytes],
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l2_key: Optional[bytes],
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gkid: Gkid,
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hash_algorithm: Algorithm,
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root_key_id: misc.GUID,
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) -> None:
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if l1_key is not None and len(l1_key) != KEY_LEN_BYTES:
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raise ValueError(f"L1 key ({repr(l1_key)}) must be {KEY_LEN_BYTES} bytes")
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if l2_key is not None and len(l2_key) != KEY_LEN_BYTES:
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raise ValueError(f"L2 key ({repr(l2_key)}) must be {KEY_LEN_BYTES} bytes")
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self.l1_key = l1_key
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self.l2_key = l2_key
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self.gkid = gkid
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self.hash_algorithm = hash_algorithm
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self.root_key_id = root_key_id
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def __str__(self) -> str:
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l1_key_hex = None if self.l1_key is None else self.l1_key.hex()
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l2_key_hex = None if self.l2_key is None else self.l2_key.hex()
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return (
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f"SeedKeyPair(L1Key({l1_key_hex}), L2Key({l2_key_hex}), {self.gkid},"
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f" {self.root_key_id}, {self.hash_algorithm})"
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)
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def __repr__(self) -> str:
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cls = type(self)
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return (
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f"{cls.__qualname__}({repr(self.l1_key)}, {repr(self.l2_key)},"
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f" {repr(self.gkid)}, {repr(self.hash_algorithm)},"
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f" {repr(self.root_key_id)})"
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)
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def __eq__(self, other: object) -> bool:
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if not isinstance(other, SeedKeyPair):
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return NotImplemented
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return (
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self.l1_key,
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self.l2_key,
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self.gkid,
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self.hash_algorithm,
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self.root_key_id,
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) == (
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other.l1_key,
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other.l2_key,
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other.gkid,
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other.hash_algorithm,
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other.root_key_id,
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)
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def __hash__(self) -> int:
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return hash((
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self.l1_key,
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self.l2_key,
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self.gkid,
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self.hash_algorithm,
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ndr_pack(self.root_key_id),
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))
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class GroupKey:
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__slots__ = ["gkid", "key", "hash_algorithm", "root_key_id"]
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def __init__(
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self, key: bytes, gkid: Gkid, hash_algorithm: Algorithm, root_key_id: misc.GUID
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) -> None:
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if key is not None and len(key) != KEY_LEN_BYTES:
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raise ValueError(f"Key ({repr(key)}) must be {KEY_LEN_BYTES} bytes")
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self.key = key
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self.gkid = gkid
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self.hash_algorithm = hash_algorithm
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self.root_key_id = root_key_id
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def __str__(self) -> str:
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return (
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f"GroupKey(Key({self.key.hex()}), {self.gkid}, {self.hash_algorithm},"
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f" {self.root_key_id})"
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)
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def __repr__(self) -> str:
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cls = type(self)
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return (
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f"{cls.__qualname__}({repr(self.key)}, {repr(self.gkid)},"
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f" {repr(self.hash_algorithm)}, {repr(self.root_key_id)})"
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)
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def __eq__(self, other: object) -> bool:
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if not isinstance(other, GroupKey):
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return NotImplemented
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return (self.key, self.gkid, self.hash_algorithm, self.root_key_id) == (
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other.key,
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other.gkid,
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other.hash_algorithm,
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other.root_key_id,
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)
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def __hash__(self) -> int:
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return hash(
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(self.key, self.gkid, self.hash_algorithm, ndr_pack(self.root_key_id))
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)
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