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derivepassphrase
exporter
vault_v03_and_below.py
Fix the docstring of the vault native v0.2 exporter class
Marco Ricci
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d23dd1e
at 2024-09-01 14:28:13
vault_v03_and_below.py
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# SPDX-FileCopyrightText: 2024 Marco Ricci <m@the13thletter.info> # # SPDX-License-Identifier: MIT """Exporter for the vault native configuration format (v0.2 or v0.3).""" from __future__ import annotations import abc import base64 import json import logging import warnings from typing import TYPE_CHECKING from derivepassphrase import exporter, vault if TYPE_CHECKING: from typing import Any from typing_extensions import Buffer if TYPE_CHECKING: from cryptography import exceptions as crypt_exceptions from cryptography import utils as crypt_utils from cryptography.hazmat.primitives import ciphers, hashes, hmac, padding from cryptography.hazmat.primitives.ciphers import algorithms, modes from cryptography.hazmat.primitives.kdf import pbkdf2 else: try: from cryptography import exceptions as crypt_exceptions from cryptography import utils as crypt_utils from cryptography.hazmat.primitives import ( ciphers, hashes, hmac, padding, ) from cryptography.hazmat.primitives.ciphers import algorithms, modes from cryptography.hazmat.primitives.kdf import pbkdf2 except ModuleNotFoundError as exc: class _DummyModule: # pragma: no cover def __init__(self, exc: type[Exception]) -> None: self.exc = exc def __getattr__(self, name: str) -> Any: # noqa: ANN401 def func(*args: Any, **kwargs: Any) -> Any: # noqa: ANN401,ARG001 raise self.exc return func crypt_exceptions = crypt_utils = _DummyModule(exc) ciphers = hashes = hmac = padding = _DummyModule(exc) algorithms = modes = pbkdf2 = _DummyModule(exc) STUBBED = True else: STUBBED = False logger = logging.getLogger(__name__) def _h(bs: bytes | bytearray) -> str: return 'bytes.fromhex({!r})'.format(bs.hex(' ')) class VaultNativeConfigParser(abc.ABC): """A base parser for vault's native configuration format. Certain details are specific to the respective vault versions, and are abstracted out. This class by itself is not instantiable because of this. """ def __init__(self, contents: Buffer, password: str | Buffer) -> None: """Initialize the parser. Args: contents: The binary contents of the encrypted configuration file. Note: On disk, these are usually stored in base64-encoded form, not in the "raw" form as needed here. password: The vault master key/master passphrase the file is encrypted with. Must be non-empty. See [`derivepassphrase.exporter.get_vault_key`][] for details. If this is a text string, then the UTF-8 encoding of the string is used as the binary password. """ if not password: msg = 'Password must not be empty' raise ValueError(msg) # noqa: DOC501 self._contents = bytes(contents) self._iv_size = 0 self._mac_size = 0 self._encryption_key = b'' self._encryption_key_size = 0 self._signing_key = b'' self._signing_key_size = 0 self._message = b'' self._message_tag = b'' self._iv = b'' self._payload = b'' self._password = password self._sentinel: object = object() self._data: Any = self._sentinel def __call__(self) -> Any: # noqa: ANN401 """Return the decrypted and parsed vault configuration. Raises: cryptography.exceptions.InvalidSignature: The encrypted configuration does not contain a valid signature. ValueError: The format is invalid, in a non-cryptographic way. (For example, it contains an unsupported version marker, or unexpected extra contents, or invalid padding.) """ if self._data is self._sentinel: self._parse_contents() self._derive_keys() self._check_signature() self._data = self._decrypt_payload() return self._data @staticmethod def _pbkdf2( password: str | Buffer, key_size: int, iterations: int ) -> bytes: if isinstance(password, str): password = password.encode('utf-8') raw_key = pbkdf2.PBKDF2HMAC( algorithm=hashes.SHA1(), length=key_size // 2, salt=vault.Vault._UUID, # noqa: SLF001 iterations=iterations, ).derive(bytes(password)) logger.debug( 'binary = pbkdf2(%s, %s, %s, %s, %s) = %s -> %s', repr(password), repr(vault.Vault._UUID), # noqa: SLF001 iterations, key_size // 2, repr('sha1'), _h(raw_key), _h(raw_key.hex().lower().encode('ASCII')), ) return raw_key.hex().lower().encode('ASCII') def _parse_contents(self) -> None: logger.info('Parsing IV, payload and signature from the file contents') if len(self._contents) < self._iv_size + 16 + self._mac_size: msg = 'Invalid vault configuration file: file is truncated' raise ValueError(msg) def cut(buffer: bytes, cutpoint: int) -> tuple[bytes, bytes]: return buffer[:cutpoint], buffer[cutpoint:] cutpos1 = len(self._contents) - self._mac_size cutpos2 = self._iv_size self._message, self._message_tag = cut(self._contents, cutpos1) self._iv, self._payload = cut(self._message, cutpos2) logger.debug( 'buffer %s = [[%s, %s], %s]', _h(self._contents), _h(self._iv), _h(self._payload), _h(self._message_tag), ) def _derive_keys(self) -> None: logger.info('Deriving an encryption and signing key') self._generate_keys() assert ( len(self._encryption_key) == self._encryption_key_size ), 'Derived encryption key is invalid' assert ( len(self._signing_key) == self._signing_key_size ), 'Derived signing key is invalid' @abc.abstractmethod def _generate_keys(self) -> None: raise AssertionError def _check_signature(self) -> None: logger.info('Checking HMAC signature') mac = hmac.HMAC(self._signing_key, hashes.SHA256()) mac_input = self._hmac_input() logger.debug( 'mac_input = %s, expected_tag = %s', _h(mac_input), _h(self._message_tag), ) mac.update(mac_input) try: mac.verify(self._message_tag) except crypt_exceptions.InvalidSignature: msg = 'File does not contain a valid signature' raise ValueError(msg) from None @abc.abstractmethod def _hmac_input(self) -> bytes: raise AssertionError def _decrypt_payload(self) -> Any: # noqa: ANN401 decryptor = self._make_decryptor() padded_plaintext = bytearray() padded_plaintext.extend(decryptor.update(self._payload)) padded_plaintext.extend(decryptor.finalize()) logger.debug('padded plaintext = %s', _h(padded_plaintext)) unpadder = padding.PKCS7(self._iv_size * 8).unpadder() plaintext = bytearray() plaintext.extend(unpadder.update(padded_plaintext)) plaintext.extend(unpadder.finalize()) logger.debug('plaintext = %s', _h(plaintext)) return json.loads(plaintext) @abc.abstractmethod def _make_decryptor(self) -> ciphers.CipherContext: raise AssertionError class VaultNativeV03ConfigParser(VaultNativeConfigParser): """A parser for vault's native configuration format (v0.3). This is the modern, pre-storeroom configuration format. """ KEY_SIZE = 32 def __init__(self, *args: Any, **kwargs: Any) -> None: # noqa: ANN401,D107 super().__init__(*args, **kwargs) self._iv_size = 16 self._mac_size = 32 def __call__(self) -> Any: # noqa: ANN401,D102 if self._data is self._sentinel: logger.info('Attempting to parse as v0.3 configuration') return super().__call__() return self._data def _generate_keys(self) -> None: self._encryption_key = self._pbkdf2(self._password, self.KEY_SIZE, 100) self._signing_key = self._pbkdf2(self._password, self.KEY_SIZE, 200) self._encryption_key_size = self._signing_key_size = self.KEY_SIZE def _hmac_input(self) -> bytes: return self._message.hex().lower().encode('ASCII') def _make_decryptor(self) -> ciphers.CipherContext: return ciphers.Cipher( algorithms.AES256(self._encryption_key), modes.CBC(self._iv) ).decryptor() class VaultNativeV02ConfigParser(VaultNativeConfigParser): """A parser for vault's native configuration format (v0.2). This is the classic configuration format. Compared to v0.3, it contains an (accidental) API misuse for the generation of the master keys, a low-entropy method of generating initialization vectors for the AES-CBC encryption step, and extra layers of base64 encoding. Because of these significantly weakened confidentiality guarantees, v0.2 configurations should be upgraded to at least v0.3 as soon as possible. """ def __init__(self, *args: Any, **kwargs: Any) -> None: # noqa: ANN401,D107 super().__init__(*args, **kwargs) self._iv_size = 16 self._mac_size = 64 def __call__(self) -> Any: # noqa: ANN401,D102 if self._data is self._sentinel: logger.info('Attempting to parse as v0.2 configuration') return super().__call__() return self._data def _parse_contents(self) -> None: super()._parse_contents() logger.debug('Decoding payload (base64) and message tag (hex)') self._payload = base64.standard_b64decode(self._payload) self._message_tag = bytes.fromhex(self._message_tag.decode('ASCII')) def _generate_keys(self) -> None: self._encryption_key = self._pbkdf2(self._password, 8, 16) self._signing_key = self._pbkdf2(self._password, 16, 16) self._encryption_key_size = 8 self._signing_key_size = 16 def _hmac_input(self) -> bytes: return base64.standard_b64encode(self._message) def _make_decryptor(self) -> ciphers.CipherContext: def evp_bytestokey_md5_one_iteration_no_salt( data: bytes, key_size: int, iv_size: int ) -> tuple[bytes, bytes]: total_size = key_size + iv_size buffer = bytearray() last_block = b'' salt = b'' logging.debug( ( 'data = %s, salt = %s, key_size = %s, iv_size = %s, ' 'buffer length = %s, buffer = %s' ), _h(data), _h(salt), key_size, iv_size, len(buffer), _h(buffer), ) while len(buffer) < total_size: with warnings.catch_warnings(): warnings.simplefilter( 'ignore', crypt_utils.CryptographyDeprecationWarning ) block = hashes.Hash(hashes.MD5()) block.update(last_block) block.update(data) block.update(salt) last_block = block.finalize() buffer.extend(last_block) logging.debug( 'buffer length = %s, buffer = %s', len(buffer), _h(buffer) ) logging.debug( 'encryption_key = %s, iv = %s', _h(buffer[:key_size]), _h(buffer[key_size:total_size]), ) return bytes(buffer[:key_size]), bytes(buffer[key_size:total_size]) data = base64.standard_b64encode(self._iv + self._encryption_key) encryption_key, iv = evp_bytestokey_md5_one_iteration_no_salt( data, key_size=32, iv_size=16 ) return ciphers.Cipher( algorithms.AES256(encryption_key), modes.CBC(iv) ).decryptor() if __name__ == '__main__': import os logging.basicConfig(level=('DEBUG' if os.getenv('DEBUG') else 'WARNING')) with open(exporter.get_vault_path(), 'rb') as infile: contents = base64.standard_b64decode(infile.read()) password = exporter.get_vault_key() try: config = VaultNativeV03ConfigParser(contents, password)() except ValueError: config = VaultNativeV02ConfigParser(contents, password)() print(json.dumps(config, indent=2, sort_keys=True)) # noqa: T201