Beispiel #1
0
def get_signature_recovery_value(message: bytes, signature: Signature,
                                 public_key: PublicKey) -> bytes:
    """
    Obtains the recovery value of a standard ECDSA signature.

    :param message: Signed message
    :param signature: The signature from which the pubkey is recovered
    :param public_key: The public key for verifying the signature
    :param is_prehashed: True if the message is already pre-hashed. Default is False, and message will be hashed with SHA256
    :return: The compressed byte-serialized representation of the recovered public key
    """

    signature = bytes(signature)
    ecdsa_signature_size = 64  # two curve scalars
    if len(signature) != ecdsa_signature_size:
        raise ValueError(
            f"The signature size should be {ecdsa_signature_size} B.")

    hash_ctx = hashes.Hash(hashes.SHA256(), backend=backend)
    hash_ctx.update(message)
    message_hash = hash_ctx.finalize()

    address = canonical_address_from_umbral_key(public_key)
    for v in (0, 1):
        v_byte = bytes([v])
        recovered = to_canonical_address(
            Account.recoverHash(message_hash, signature=signature + v_byte))
        if recovered == address:
            return v_byte
    else:
        raise ValueError(
            "Signature recovery failed. "
            "Either the message, the signature or the public key is not correct"
        )
Beispiel #2
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    def process(self, incoming_demand):
        rospy.loginfo('Incoming ask %s...', str(incoming_demand))
        if (incoming_demand.model == rospy.get_param('~model')
                and incoming_demand.token == rospy.get_param('~token')
                and incoming_demand.cost == 0):

            rospy.loginfo('Starting process...')

            with NamedTemporaryFile(delete=False) as tmpfile:
                recorder = rosbag.Bag(tmpfile.name, 'w')

                output = 'St.Petersburg: {{"DUST": {}, "CO": {}, "LPG": {}, "METHANE": {}, "SMOKE": {}, "HYDROGEN": {}}}'.format(
                    *self.measurements)
                recorder.write('/worker/data', String(data=output))
                recorder.close()

                # recover account of sender
                msg_hash = defunct_hash_message(
                    self.demandhash(incoming_demand))
                sender_account = Account.recoverHash(
                    msg_hash, signature=incoming_demand.signature)

                ipfs_response = self.ipfs.add(tmpfile.name)

                res = Result()
                res.liability = sender_account
                res.result = ipfs_response
                res.success = True

                self.pub.publish(res)

            rospy.loginfo('Process complete.')
Beispiel #3
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def recover_address_from_sig():
    signed_timestamp_token = request.headers.get('X-Wallet-Signature')
    if signed_timestamp_token:
        # 'adabdha_'+timestamp+':'+walletSign('adabdha_'+timestamp)
        string_data, signed_data = signed_timestamp_token.split(':')
        string_data_hashed = defunct_hash_message(string_data.encode('utf-8'))
        recovered_eth_address = Account.recoverHash(
            message_hash=string_data_hashed, signature=signed_data)
        recovered_eth_address = eth_utils.to_normalized_address(
            recovered_eth_address)
        return recovered_eth_address
    else:
        return None
Beispiel #4
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def ec_recover(message: str, signed_message: str) -> str:
    """
    This method does not prepend the message with the prefix `\x19Ethereum Signed Message:\n32`.
    The caller should add the prefix to the msg/hash before calling this if the signature was
    produced for an ethereum-prefixed message.

    :param message:
    :param signed_message:
    :return:
    """
    v, r, s = split_signature(Web3.toBytes(hexstr=signed_message))
    signature_object = SignatureFix(vrs=(v, big_endian_to_int(r),
                                         big_endian_to_int(s)))
    return Account.recoverHash(message,
                               signature=signature_object.to_hex_v_hacked())
Beispiel #5
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    def verify_message(self,
                       message,
                       signed_message=None,
                       address=None,
                       use_tron: bool = True):
        """ Get the address of the account that signed the message with the given hash.
        You must specify exactly one of: vrs or signature

        Args:
            message (str): The message in the format "hex"
            signed_message (AttributeDict): Signature
            address (str): is Address
            use_tron (bool): is Tron header

        """
        if address is None:
            address = self.tron.default_address.base58

        if not is_hex(message):
            raise TronError('Expected hex message input')

        # Determine which header to attach to the message
        # before encrypting or decrypting
        header = TRX_MESSAGE_HEADER if use_tron else ETH_MESSAGE_HEADER

        message_hash = self.tron.sha3(text=header + message)
        recovered = EthAccount.recoverHash(message_hash,
                                           signature=signed_message.signature)

        tron_address = '41' + recovered[2:]
        base58address = self.tron.address.from_hex(tron_address).decode()

        if base58address == address:
            return True

        raise ValueError('Signature does not match')