Exemple #1
0
    def _create_sponge(self, index):
        # type: (int) -> Curl
        """
    Prepares the Curl sponge for the generator.
    """
        seed = self.seed.as_trits()  # type: MutableSequence[int]

        for i in range(index):
            # Treat ``seed`` like a really big number and add ``index``.
            # Note that addition works a little bit differently in balanced
            # ternary.
            for j in range(len(seed)):
                seed[j] += 1

                if seed[j] > 1:
                    seed[j] = -1
                else:
                    break

        sponge = Curl()
        sponge.absorb(seed)

        # Squeeze all of the trits out of the sponge and re-absorb them.
        # Note that Curl transforms several times per operation, so this
        # sequence is not as redundant as it looks at first glance.
        sponge.squeeze(seed)
        sponge.reset()
        sponge.absorb(seed)

        return sponge
Exemple #2
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def validate_signature_fragments(fragments, hash_, public_key):
    # type: (Sequence[TryteString], Hash, TryteString) -> bool
    """
  Returns whether a sequence of signature fragments is valid.

  :param fragments:
    Sequence of signature fragments (usually
    :py:class:`cornode.transaction.Fragment` instances).

  :param hash_:
    Hash used to generate the signature fragments (usually a
    :py:class:`cornode.transaction.BundleHash` instance).

  :param public_key:
    The public key value used to verify the signature digest (usually a
    :py:class:`cornode.types.Address` instance).
  """
    checksum = [0] * (HASH_LENGTH * len(fragments))
    normalized_hash = normalize(hash_)

    for (i, fragment) in enumerate(fragments):  # type: Tuple[int, TryteString]
        outer_sponge = Curl()

        # If there are more than 3 iterations, loop back around to the
        # start.
        normalized_chunk = normalized_hash[i % len(normalized_hash)]

        buffer = []
        for (j, hash_trytes) in enumerate(fragment.iter_chunks(
                Hash.LEN)):  # type: Tuple[int, TryteString]
            buffer = hash_trytes.as_trits()  # type: MutableSequence[int]
            inner_sponge = Curl()

            # Note the sign flip compared to ``SignatureFragmentGenerator``.
            for _ in range(13 + normalized_chunk[j]):
                inner_sponge.reset()
                inner_sponge.absorb(buffer)
                inner_sponge.squeeze(buffer)

            outer_sponge.absorb(buffer)

        outer_sponge.squeeze(buffer)
        checksum[i * HASH_LENGTH:(i + 1) * HASH_LENGTH] = buffer

    actual_public_key = [0] * HASH_LENGTH  # type: MutableSequence[int]
    addy_sponge = Curl()
    addy_sponge.absorb(checksum)
    addy_sponge.squeeze(actual_public_key)

    return actual_public_key == public_key.as_trits()
Exemple #3
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class SignatureFragmentGenerator(Iterator[TryteString]):
    """
  Used to generate signature fragments progressively.

  Each instance can generate 1 signature per fragment in the private
  key.
  """
    def __init__(self, private_key, hash_):
        # type: (PrivateKey, TryteString) -> None
        super(SignatureFragmentGenerator, self).__init__()

        self._key_chunks = private_key.iter_chunks(FRAGMENT_LENGTH)
        self._iteration = -1
        self._normalized_hash = normalize(hash_)
        self._sponge = Curl()

    def __iter__(self):
        # type: () -> SignatureFragmentGenerator
        return self

    def __len__(self):
        # type: () -> int
        """
    Returns the number of fragments this generator can create.

    Note: This method always returns the same result, no matter how
    many iterations have been completed.
    """
        return len(self._key_chunks)

    def __next__(self):
        # type: () -> TryteString
        """
    Returns the next signature fragment.
    """
        key_trytes = next(self._key_chunks)  # type: TryteString
        self._iteration += 1

        # If the key is long enough, loop back around to the start.
        normalized_chunk =\
          self._normalized_hash[self._iteration % len(self._normalized_hash)]

        signature_fragment = key_trytes.as_trits()

        # Build the signature, one hash at a time.
        for i in range(key_trytes.count_chunks(Hash.LEN)):
            hash_start = i * HASH_LENGTH
            hash_end = hash_start + HASH_LENGTH

            buffer = signature_fragment[hash_start:
                                        hash_end]  # type: MutableSequence[int]

            for _ in range(13 - normalized_chunk[i]):
                self._sponge.reset()
                self._sponge.absorb(buffer)
                self._sponge.squeeze(buffer)

            signature_fragment[hash_start:hash_end] = buffer

        return TryteString.from_trits(signature_fragment)

    if PY2:
        next = __next__