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from __future__ import absolute_import import hashlib from pip._vendor.six import iteritems, iterkeys, itervalues from pip._internal.exceptions import ( HashMismatch, HashMissing, InstallationError, ) from pip._internal.utils.misc import read_chunks from pip._internal.utils.typing import MYPY_CHECK_RUNNING if MYPY_CHECK_RUNNING: from typing import ( Dict, List, BinaryIO, NoReturn, Iterator ) from pip._vendor.six import PY3 if PY3: from hashlib import _Hash else: from hashlib import _hash as _Hash # The recommended hash algo of the moment. Change this whenever the state of # the art changes; it won't hurt backward compatibility. FAVORITE_HASH = 'sha256' # Names of hashlib algorithms allowed by the --hash option and ``pip hash`` # Currently, those are the ones at least as collision-resistant as sha256. STRONG_HASHES = ['sha256', 'sha384', 'sha512'] class Hashes(object): """A wrapper that builds multiple hashes at once and checks them against known-good values """ def __init__(self, hashes=None): # type: (Dict[str, List[str]]) -> None """ :param hashes: A dict of algorithm names pointing to lists of allowed hex digests """ self._allowed = {} if hashes is None else hashes def __and__(self, other): # type: (Hashes) -> Hashes if not isinstance(other, Hashes): return NotImplemented # If either of the Hashes object is entirely empty (i.e. no hash # specified at all), all hashes from the other object are allowed. if not other: return self if not self: return other # Otherwise only hashes that present in both objects are allowed. new = {} for alg, values in iteritems(other._allowed): if alg not in self._allowed: continue new[alg] = [v for v in values if v in self._allowed[alg]] return Hashes(new) @property def digest_count(self): # type: () -> int return sum(len(digests) for digests in self._allowed.values()) def is_hash_allowed( self, hash_name, # type: str hex_digest, # type: str ): # type: (...) -> bool """Return whether the given hex digest is allowed.""" return hex_digest in self._allowed.get(hash_name, []) def check_against_chunks(self, chunks): # type: (Iterator[bytes]) -> None """Check good hashes against ones built from iterable of chunks of data. Raise HashMismatch if none match. """ gots = {} for hash_name in iterkeys(self._allowed): try: gots[hash_name] = hashlib.new(hash_name) except (ValueError, TypeError): raise InstallationError( 'Unknown hash name: {}'.format(hash_name) ) for chunk in chunks: for hash in itervalues(gots): hash.update(chunk) for hash_name, got in iteritems(gots): if got.hexdigest() in self._allowed[hash_name]: return self._raise(gots) def _raise(self, gots): # type: (Dict[str, _Hash]) -> NoReturn raise HashMismatch(self._allowed, gots) def check_against_file(self, file): # type: (BinaryIO) -> None """Check good hashes against a file-like object Raise HashMismatch if none match. """ return self.check_against_chunks(read_chunks(file)) def check_against_path(self, path): # type: (str) -> None with open(path, 'rb') as file: return self.check_against_file(file) def __nonzero__(self): # type: () -> bool """Return whether I know any known-good hashes.""" return bool(self._allowed) def __bool__(self): # type: () -> bool return self.__nonzero__() class MissingHashes(Hashes): """A workalike for Hashes used when we're missing a hash for a requirement It computes the actual hash of the requirement and raises a HashMissing exception showing it to the user. """ def __init__(self): # type: () -> None """Don't offer the ``hashes`` kwarg.""" # Pass our favorite hash in to generate a "gotten hash". With the # empty list, it will never match, so an error will always raise. super(MissingHashes, self).__init__(hashes={FAVORITE_HASH: []}) def _raise(self, gots): # type: (Dict[str, _Hash]) -> NoReturn raise HashMissing(gots[FAVORITE_HASH].hexdigest())