示例#1
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    def test_compute_block_hash(self):
        # NOTE -- this implicitly tests Hasher.hash_iterable
        bd = self._build_valid_block_data()

        # Correct order of keys should be:
        # ['block_contender',
        #  'masternode_signature',
        #  'masternode_vk',
        #  'merkle_leaves',
        #  'merkle_root',
        #  'prev_block_hash',
        #  'timestamp']

        binary_data = bd['block_contender'].serialize()
        binary_data += bd['masternode_signature'].encode()
        binary_data += bd['masternode_vk'].encode()
        binary_data += bd['merkle_leaves'].encode()
        binary_data += bd['merkle_root'].encode()
        binary_data += bd['prev_block_hash'].encode()
        binary_data += int_to_bytes(bd['timestamp'])

        expected_hash = Hasher.hash(binary_data)
        actual_hash = BlockStorageDriver._compute_block_hash(bd)

        self.assertEqual(expected_hash, actual_hash)
示例#2
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    def test_store_block_inserts_transactions(self):
        num_txs = 4

        with DB() as db:
            initial_txs = len(db.tables.transactions.select().run(db.ex))

        mn_sk = Constants.Testnet.Masternodes[0]['sk']
        timestamp = random.randint(0, pow(2, 32))
        raw_transactions = [build_test_transaction().serialize() for _ in range(num_txs)]

        tree = MerkleTree(raw_transactions)
        bc = build_test_contender(tree=tree)

        BlockStorageDriver.store_block(block_contender=bc, raw_transactions=raw_transactions, publisher_sk=mn_sk, timestamp=timestamp)
        block_hash = BlockStorageDriver._get_latest_block_hash()

        with DB() as db:
            transactions = db.tables.transactions
            all_tx_query = transactions.select().run(db.ex)

            # Ensure the correct number of transactions was inserted
            self.assertEquals(len(all_tx_query) - initial_txs, num_txs)

            # Ensure the transactions were correctly inserted
            for raw_tx in raw_transactions:
                tx_hash = Hasher.hash(raw_tx)

                rows = transactions.select().where(transactions.hash == tx_hash).run(db.ex)
                self.assertTrue(rows, "Expected there to be a row for inserted tx {}".format(raw_tx))

                tx_row = rows[0]
                self.assertEquals(tx_row['hash'], tx_hash, "Expected fetched tx to have hash equal to its hashed data")
                self.assertEquals(tx_row['data'], encode_tx(raw_tx), "Expected tx data col to equal encoded raw tx")
                self.assertEquals(tx_row['block_hash'], block_hash, "Expected inserted tx to reference last block")
示例#3
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    def handle_tx_request(self, reply: TransactionReply):
        self.log.debug("Masternode got block data reply: {}".format(reply))

        for tx in reply.raw_transactions:
            tx_hash = Hasher.hash(tx)
            if tx_hash in self.tx_hashes:
                self.retrieved_txs[tx_hash] = tx
            else:
                self.log.error(
                    "Received block data reply with tx hash {} that is not in tx_hashes"
                )
                return

        if len(self.retrieved_txs) == len(self.tx_hashes):
            self.log.debug(
                "Done collecting block data. Transitioning back to NewBlockState."
            )
            self.parent.transition(MNNewBlockState,
                                   success=True,
                                   retrieved_txs=self._get_ordered_raw_txs(),
                                   pending_blocks=self.pending_blocks)
            return
        else:
            self.log.debug(
                "Still {} transactions yet to request until we can build the block"
                .format(len(self.tx_hashes) - len(self.retrieved_txs)))
示例#4
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    def hash(o):
        # If 'o' is a str, it is assumed to be a hex string, thus we cast it to bytes using bytes.fromhex(...)
        # instead of the default str.encode(..) that the Hasher module uses
        if type(o) is str:
            o = bytes.fromhex(o)

        return Hasher.hash(o, algorithm=Hasher.Alg.SHA3_256, return_bytes=True)
示例#5
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    def node_create(cls, user_id: str, contract_code: str, block_hash: str):
        contract_id = Hasher.hash(user_id + contract_code + block_hash)
        data = {
            cls.USER_ID: user_id,
            cls.CONTRACT_CODE: contract_code,
            cls.CONTRACT_ID: contract_id
        }

        return cls.from_data(data)
示例#6
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    def reply_uuid(request_uuid: int):
        """
        Returns the associated reply UUID for some request UUID. This is simply the SHA3 256 hash of the request's UUID.
        :param request_uuid: The request UUID to generate a reply UUID for
        :return: An int, denoting the reply UUID associated with the passed in request UUID
        """
        int_binary = Hasher.hash(request_uuid, algorithm=Hasher.Alg.SHAKE_128, digest_len=UUID_SIZE//8, return_bytes=True)
        rep_uuid = int.from_bytes(int_binary, byteorder='little')  # capnp int fields encoded in little endian

        # This assertion is for debugging only. Remove for production.
        assert rep_uuid <= max_uuid, "OH NO! Got reply uuid greater than MaxUUID! LOGIC ERROR!!!"

        return rep_uuid
示例#7
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    def test_get_raw_transaction(self):
        mn_sk = Constants.Testnet.Masternodes[0]['sk']
        timestamp = random.randint(0, pow(2, 32))
        raw_transactions = [build_test_transaction().serialize() for _ in range(4)]

        tree = MerkleTree(raw_transactions)
        bc = build_test_contender(tree=tree)

        BlockStorageDriver.store_block(block_contender=bc, raw_transactions=raw_transactions, publisher_sk=mn_sk, timestamp=timestamp)

        # Ensure all these transactions are retrievable
        for raw_tx in raw_transactions:
            retrieved_tx = BlockStorageDriver.get_raw_transaction(Hasher.hash(raw_tx))
            self.assertEquals(raw_tx, retrieved_tx)
示例#8
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 def validate_matches_request(self, request: TransactionRequest) -> bool:
     """
     Validates that this TransactionReply contains transactions, whose hashes match the hashes in TransactionRequest.
     Returns True if this class contains every transaction for each transaction hash in the TransactionRequest
     (none missing, and no extras). Otherwise, returns false
     :param request:
     :return: True if this object has a transaction for every hash in TransactionRequest. False otherwise.
     """
     if len(self._data.transactions) != len(request._data.transactions):
         return False
     req_hashes = request.tx_hashes
     for i, self_t in enumerate(self._data.transactions):
         request_t = req_hashes[i]
         if Hasher.hash(self_t) != request_t:
             return False
     return True
示例#9
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    def __repr__(self):
        """
        Printing the full capnp struct (which is the default MessageBase __repr__ behvaior) is way to verbose for
        the logs. Here we just slim this guy down a little to make the logs easier to read
        TODO -- the hashing bit should not be done in production as this wastes computational cycles
        """
        msg_type = str(MessageBase.registry[self.meta.type])
        msg_hash = Hasher.hash(data=self.message_binary, digest_len=3)  # compressed representation of the message
        seal_vk = self.seal.verifying_key
        uuid = self.meta.uuid

        repr = "\nEnvelope from sender {}".format(seal_vk)
        repr += "\n\tuuid: {}".format(uuid)
        repr += "\n\tmessage type: {}".format(msg_type)
        repr += "\n\tmessage hash: {}".format(msg_hash)

        return repr
示例#10
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    def test_validate_matches_request_no_match(self):
        """
        Tests that a created block data reply has the expected properties
        """
        sk = wallet.new()[0]
        code_strs = ['some random binary', 'some deterministic binary', 'While True: self.eatAss()']
        contracts = [
            ContractTransactionBuilder.create_contract_tx(sk, code_str) \
            for code_str in code_strs
        ]
        tx_binaries = [c.serialize() for c in contracts]

        tx_hashes = [Hasher.hash(cs+b'bbb') for cs in tx_binaries]
        bdr_req = TransactionRequest.create(tx_hashes)

        bdr_rep = TransactionReply.create(tx_binaries)
        assert not bdr_rep.validate_matches_request(bdr_req)
示例#11
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文件: blocks.py 项目: Mat001/cilantro
    def store_block(cls,
                    block_contender: BlockContender,
                    raw_transactions: List[bytes],
                    publisher_sk: str,
                    timestamp: int = 0):
        """

        Persist a new block to the blockchain, along with the raw transactions associated with the block. An exception
        will be raised if an error occurs either validating the new block data, or storing the block. Thus, it is
        recommended that this method is wrapped in a try block.

        :param block_contender: A BlockContender instance
        :param raw_transactions: A list of ordered raw transactions contained in the block
        :param publisher_sk: The signing key of the publisher (a Masternode) who is publishing the block
        :param timestamp: The time the block was published, in unix epoch time. If 0, time.time() is used
        :return: None
        :raises: An assertion error if invalid args are passed into this function, or a BlockStorageValidationException
         if validation fails on the attempted block

        TODO -- think really hard and make sure that this is 'collision proof' (extremely unlikely, but still possible)
        - could there be a hash collision in the Merkle tree nodes?
        - hash collision in block hash space?
        - hash collision in transaction space?
        """
        assert isinstance(
            block_contender, BlockContender
        ), "Expected block_contender arg to be BlockContender instance"
        assert is_valid_hex(
            publisher_sk,
            64), "Invalid signing key {}. Expected 64 char hex str".format(
                publisher_sk)

        if not timestamp:
            timestamp = int(time.time())

        tree = MerkleTree.from_raw_transactions(raw_transactions)

        publisher_vk = ED25519Wallet.get_vk(publisher_sk)
        publisher_sig = ED25519Wallet.sign(publisher_sk, tree.root)

        # Build and validate block_data
        block_data = {
            'block_contender': block_contender,
            'timestamp': timestamp,
            'merkle_root': tree.root_as_hex,
            'merkle_leaves': tree.leaves_as_concat_hex_str,
            'prev_block_hash': cls._get_latest_block_hash(),
            'masternode_signature': publisher_sig,
            'masternode_vk': publisher_vk,
        }
        cls._validate_block_data(block_data)

        # Compute block hash
        block_hash = cls._compute_block_hash(block_data)

        # Encode block data for serialization and finally persist the data
        log.info(
            "Attempting to persist new block with hash {}".format(block_hash))
        block_data = cls._encode_block(block_data)

        with DB() as db:
            # Store block
            res = db.tables.blocks.insert([{
                'hash': block_hash,
                **block_data
            }]).run(db.ex)
            if res:
                log.info(
                    "Successfully inserted new block with number {} and hash {}"
                    .format(res['last_row_id'], block_hash))
            else:
                log.error(
                    "Error inserting block! Got None/False result back from insert query. Result={}"
                    .format(res))
                return

            # Store raw transactions
            log.info(
                "Attempting to store {} raw transactions associated with block hash {}"
                .format(len(raw_transactions), block_hash))
            tx_rows = [{
                'hash': Hasher.hash(raw_tx),
                'data': encode_tx(raw_tx),
                'block_hash': block_hash
            } for raw_tx in raw_transactions]

            res = db.tables.transactions.insert(tx_rows).run(db.ex)
            if res:
                log.info("Successfully inserted {} transactions".format(
                    res['row_count']))
            else:
                log.error(
                    "Error inserting raw transactions! Got None from insert query. Result={}"
                    .format(res))
示例#12
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 def hash(o):
     return Hasher.hash(o, algorithm=Hasher.Alg.SHA3_256, return_bytes=True)