Exemplo n.º 1
0
def create_duplicate_tx():
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={"bicycle": {"manufacturer": "bkfab", "serial_number": "abcd1234"}})

    # Metadata Definition
    metadata = {'planet': 'earth1'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)], metadata=metadata, asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", tx.to_dict()['id'])

    # sign with alice's private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("1.tx_create query       : ", tx)
    print(" ")

    #####################################################
    print("2.write dulpicate tx: ", b.write_transaction(tx))
def create_transfer(p_num):
    print(p_num, ":create_transfer start")
    while True:
        alice, bob = generate_keypair(), generate_keypair()

        asset = Asset(data={'money': 'RMB'}, data_id='20170628150000', divisible=True)
        metadata = {'planet': 'earth'}
        tx_create = Transaction.create([alice.public_key], [([alice.public_key], 1)], metadata=metadata, asset=asset)
        tx_create = tx_create.sign([alice.private_key])
        try:
            create_queue.put(tx_create, False)
        except Full:
            print(p_num, ":create_queue full", create_queue.qsize())
            break

        cid = 0
        condition = tx_create.to_dict()['transaction']['conditions'][cid]
        inputs = Fulfillment.from_dict({
            'fulfillment': condition['condition']['details'],
            'input': {
                'cid': cid,
                'txid': tx_create.to_dict()['id'],
            },
            'owners_before': condition['owners_after'],
        })
        asset = Asset.from_dict(tx_create.to_dict()['transaction']['asset'])
        tx_transfer = Transaction.transfer([inputs], [([bob.public_key], 1)], asset)
        tx_transfer = tx_transfer.sign([alice.private_key])
        try:
            transfer_queue.put(tx_transfer, False)
        except Full:
            print(p_num, ":transfer_queue full")
            break
Exemplo n.º 3
0
def get():
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()
    print(" ")
    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    })

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [alice.public_key],
                            metadata=metadata,
                            asset=asset)

    # sign with private key
    tx = tx.sign([alice.private_key])
    # get tx by id
    b = Bigchain()

    block = b.create_block([tx])
    block_voters = block.to_dict()['block']['voters']
    print(block_voters)
    tx_id = '2cb004cad29c0b79872646558f8c867a4c0aecbc4997f0917'
    tx = b.get_transaction(tx_id)
    print(
        "block status         : ",
        b.block_election_status(
            '2257384a0cee8cf98bd82c3142dd38eee5c268c124b5b357b773b8c6c1fa1221',
            block_voters))
Exemplo n.º 4
0
def create():
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    })

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)],
                            metadata=metadata,
                            asset=asset)

    # sign with private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    b.write_transaction(tx)

    # wait 2 sec
    sleep(2)

    # get tx by id
    tx = b.get_transaction(tx_id)
    return tx.to_dict()
Exemplo n.º 5
0
def _normalize_asset(asset, is_transfer=False):
    """
    Normalizes the given asset dictionary.

    For now, this means converting the given asset dictionary to a
    :class:`~.bigchaindb.common.transaction.Asset` class.

    Args:
        asset (dict): The asset to normalize.
        is_transfer (boal, optional): Flag used to indicate whether the
            asset is to be used as part of a `'TRANSFER'` operation or
            not. Defaults to ``False``.

    Returns:
        The :class:`~.bigchaindb.common.transaction.Asset` class,
        instantiated from the given asset dictionary.

        .. important:: If the instantiation step fails, ``None`` may be
            returned.

    .. danger:: For specific internal usage only. The behavior is tricky,
        and is subject to change.

    """
    if is_transfer:
        asset = Asset.from_dict(asset)
    else:
        try:
            asset = Asset(**asset)
        except (AttributeError, TypeError):
            if not asset:
                asset = None
    return asset
Exemplo n.º 6
0
def bft():
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()
    print(" ")
    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    })

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)],
                            metadata=metadata,
                            asset=asset)

    # sign with private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']
    print("tx_id                       : ", tx_id)

    # create block
    b = Bigchain()
    block = b.create_block([tx])

    print("valid block       timestamp : ",
          block.to_dict()['block']['timestamp'])
    # tamper block
    block.timestamp = '1'
    print("tamper block.timestamp to 1 : ")
    block_id = block.to_dict()['id']
    block_voters = block.to_dict()['block']['voters']

    print("invalid block     timestamp : ",
          block.to_dict()['block']['timestamp'])
    print("tamper_block_id             : ", block_id)

    print("db response of block        : ", b.write_block(block))
    sleep(0)

    last_voted_id = b.get_last_voted_block().id
    vote = b.vote(block_id, last_voted_id, True)
    print("crate vote 'True'           : ", vote)
    print("db response of vote         : ", b.write_vote(vote))

    print("tamper_block status         : ",
          b.block_election_status(block_id, block_voters))
    print("blocks_status_containing_tx : ",
          b.get_blocks_status_containing_tx(tx_id))
    print("wait for 20 sec             : ")
    sleep(20)
    print("blocks_status_containing_tx : ",
          b.get_blocks_status_containing_tx(tx_id))
    print(" ")
Exemplo n.º 7
0
def merge_utxo(alicepub, alicepriv, include_spent):
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    },
                  data_id="334cd061-846b-4213-bd25-588e951def5f")
    metadata = {'planet': 'earth'}
    b = Bigchain()
    utxo = b.get_outputs_filtered_not_include_freeze(alicepub, include_spent)
    for u in utxo:
        # print(u)
        u.pop('details')
    print('userA unspent asset:')
    print(json.dumps(utxo, indent=4))
    inputs = []
    balance = 0
    utxo = b.get_outputs_filtered_not_include_freeze(alicepub, include_spent)
    for i in utxo:
        f = Fulfillment.from_dict({
            'fulfillment': i['details'],
            'input': {
                'cid': i['cid'],
                'txid': i['txid'],
            },
            'owners_before': [alicepub],
        })
        inputs.append(f)
        balance += i['amount']

    length = len(utxo)
    if balance <= 0:
        print('No need to merge, because of lack of balance')
    elif length <= 1:
        print('No need to merge, because utxo len = 1')
    else:
        tx = Transaction.transfer(inputs, [([alicepub], balance)],
                                  metadata=metadata,
                                  asset=asset)
        tx = tx.sign([alicepriv])
        tx_id = tx.to_dict()['id']
        # write to backlog
        b.write_transaction(tx)
        # wait 2 sec
        print("========userA merge multi-asset========")
        print("========wait for block and vote...========")
        sleep(5)
        # get tx by id
        tx = b.get_transaction(tx_id)
        print("merge txid:" + tx.to_dict()['id'])

    utxo = b.get_outputs_filtered_not_include_freeze(alicepub, include_spent)
    for u in utxo:
        # print(u)
        u.pop('details')
    print('userA unspent asset:')
    print(json.dumps(utxo, indent=4))
Exemplo n.º 8
0
 def transactions():
     priv, pub = generate_key_pair()
     tx = Transaction.create([pub], [([pub], 1)])
     while True:
         i = yield tx.to_dict()
         tx.asset = Asset(data={'n': i},
                          data_id='20170628150000',
                          divisible=True)
         tx.sign([priv])
Exemplo n.º 9
0
def alice_transaction_obj(alice_pubkey):
    serial_number = b64encode(urandom(10), altchars=b'-_').decode()
    return Transaction.create(
        owners_before=[alice_pubkey],
        owners_after=[alice_pubkey],
        asset=Asset(data={'data': {
            'serial_number': serial_number
        }}),
    )
    def create(self, asset=None, verifying_key=None, signing_key=None):
        """Issue a transaction to create an asset.

        Args:
            asset (dict): Fungible unit to spend and lock with the
                transaction being created.
            signing_key (str): Private key used to sign transactions.
            verifying_key (str): Public key associated with the
                :attr:`signing_key`.

        Returns:
            dict: The transaction pushed to the Federation.

        Raises:
            :class:`~bigchaindb_driver.exceptions.InvalidSigningKey`: If
                neither ``signing_key`` nor ``self.signing_key`` have been set.
            :class:`~bigchaindb_driver.exceptions.InvalidVerifyingKey`: If
                neither ``verifying_key`` nor ``self.verifying_key`` have
                been set.

        """
        signing_key = signing_key if signing_key else self.signing_key
        if not signing_key:
            raise InvalidSigningKey
        verifying_key = verifying_key if verifying_key else self.verifying_key
        if not verifying_key:
            raise InvalidVerifyingKey
        asset = Asset(**asset) if asset else Asset()
        # TODO: In the future, we should adjust this to let the user of the
        #       driver define both `owners_before` and `owners_after`.
        transaction = Transaction.create(
            owners_before=[verifying_key],
            owners_after=[verifying_key],
            asset=asset,
        )
        signed_transaction = transaction.sign([signing_key])
        return self._push(signed_transaction.to_dict())
Exemplo n.º 11
0
def tamper_block():
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()
    print(" ")
    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    })

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)],
                            metadata=metadata,
                            asset=asset)

    # sign with private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']
    print("tx_id                       : ", tx_id)

    # create block
    b = Bigchain()
    block = b.create_block([tx])
    block_id = block.to_dict()['id']
    block_voters = block.to_dict()['block']['voters']
    print("last_block_id    sig        : ", block_id, block.signature)
    print(block.to_dict())
    # tamper block sig
    block.sign(alice.private_key)
    block_dict = block.to_dict()
    print("tamper_block_id  sig        : ", block_dict['id'],
          block_dict['signature'])
    print(block_dict)
    print("db response                 : ",
          b.backend.write_block(serialize(block_dict)))
    sleep(delay)
    print("tamper_block status         : ",
          b.block_election_status(block_dict['id'], block_voters))
    print("blocks_status_containing_tx : ",
          b.get_blocks_status_containing_tx(tx_id))
    print(" ")
Exemplo n.º 12
0
def create_transfer():
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={"bicycle": {"manufacturer": "bkfab", "serial_number": "abcd1234"}})

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)], metadata=metadata, asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", tx.to_dict()['id'])

    # sign with alice's private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("1.tx_create query       : ", tx)
    # print("tx1_id:"+tx.to_dict()['id'])
    print(" ")
    ##################################################### 2.TRANSFER
    #  inputs and asset [fake]
    cid = 0
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment': condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before': [bob.public_key],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx = Transaction.transfer([inputs], [([bob.public_key], 1)], asset)
    print("2.tx_fake asset id    :  bob-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->bob")
    print("2.tx_fake tx id       : ", tx.to_dict()['id'])

    # sign with bob's private key [fake]
    tx = tx.sign([bob.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("2.tx_fake db response : ", b.write_transaction(tx))

    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("2.tx_fake query       : ", tx)
    # print("tx2_id:"+tx.to_dict()['id'])
    print(" ")
Exemplo n.º 13
0
def create_transfer():
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    alice, bob, tom = generate_keypair(), generate_keypair(), generate_keypair(
    )
    asset = Asset(data={'money': 'RMB'},
                  data_id='20170628150000',
                  divisible=True)
    metadata = {'planet': 'earth'}

    tx = Transaction.create([alice.public_key], [([alice.public_key], 1000)],
                            metadata=metadata,
                            asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----money 1000(",
          tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", tx.to_dict()['id'])

    # sign with alice's private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 4 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("1.tx_create query       : ", tx)
    # print("tx1_id:"+tx.to_dict()['id'])
    print(" ")
    ##################################################### 2.TRANSFER
    #  inputs and asset
    cid = 0
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment':
        condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before':
        condition['owners_after'],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx = Transaction.transfer([inputs], [([bob.public_key], 300),
                                         ([alice.public_key], 700)], asset)
    print("2.tx_transfer asset id    :  alice-----money 300(",
          tx.to_dict()['transaction']['asset']['id'], ")----->bob")
    print("2.tx_transfer tx id       : ", tx.to_dict()['id'])
    print("2.tx_transfer tx          : ", tx.to_dict())
    print(" ")
    # sign with alice's private key
    tx = tx.sign([alice.private_key])

    # man in the middle attack, then write to backlog
    tx.conditions[0].amount = 600
    tx.conditions[1].amount = 400
    print("3.tx_attack asset id    :  alice-----money 600(",
          tx.to_dict()['transaction']['asset']['id'], ")----->tom")
    print("3.tx_attack tx id       : ", tx.to_dict()['id'])
    print("3.tx_attack tx          : ", tx.to_dict())
    tx_id = tx.to_dict()['id']
    b = Bigchain()
    print("3.tx_attack db response : ", b.write_transaction(tx))

    # wait 4 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("3.tx_attack query       : ", tx)
    print(" ")
Exemplo n.º 14
0
def create_double():
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. money)
    asset = Asset(data={'money': 'RMB'},
                  data_id='20170628150000',
                  divisible=True)

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alice.public_key], [([alice.public_key], 100),
                                                 ([alice.public_key], 100)],
                            metadata=metadata,
                            asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----money(",
          tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", tx.to_dict()['id'])

    # sign with alice's private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    unspent = b.get_outputs_filtered_not_include_freeze(
        alice.public_key, False)
    print("1.tx_create query       : ", tx)
    print("1.tx_create unspent     : ", unspent)
    print(" ")

    ##################################################### 2.TRANSFER
    #  inputs and asset
    cid = 0
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment':
        condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before': [alice.public_key],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx1 = Transaction.transfer([inputs], [([bob.public_key], 100)], asset)
    print("2.tx_transfer asset id    :  alice-----money(",
          tx1.to_dict()['transaction']['asset']['id'], ")----->bob")
    print("2.tx_transfer tx id       : ", tx1.to_dict()['id'])

    # sign with alice's private key
    tx1 = tx1.sign([alice.private_key])
    tx1_id = tx1.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("2.tx_transfer db response : ", b.write_transaction(tx1))

    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx1 = b.get_transaction(tx1_id)
    block = list(b.get_blocks_status_containing_tx(tx1_id).keys())[0]
    votes = list(b.backend.get_votes_by_block_id(block))
    votes_cast = [vote['vote']['is_block_valid'] for vote in votes]
    election = b.get_blocks_status_containing_tx(tx1_id)
    print("2.tx_transfer query       : ", tx1)
    print("2.tx_transfer block       : ", block)
    print("2.            votes       : ", votes)
    print("2.            votes_cast  : ", votes_cast)
    print("2.            election    : ", election)
    print(" ")
    ##################################################### 3.INTERVAL
    # Cryptographic Identities Generation
    alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. money)
    asset = Asset(data={'money': 'RMB'},
                  data_id='20170628150000',
                  divisible=True)

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    txi = Transaction.create([alice.public_key], [([alice.public_key], 100),
                                                  ([alice.public_key], 100)],
                             metadata=metadata,
                             asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----money(",
          tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", txi.to_dict()['id'])

    # sign with alice's private key
    txi = txi.sign([alice.private_key])
    tx_id = txi.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 2 sec
    sleep(delay)
    ##################################################### 3.TRANSFER
    #  inputs and asset [double spend]
    cid = 1
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment':
        condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before': [alice.public_key],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx1 = Transaction.transfer([inputs], [([bob.public_key], 100)], asset)
    print("3.tx_double asset id    :  alice-----money(",
          tx1.to_dict()['transaction']['asset']['id'], ")----->bob")
    print("3.tx_double tx id       : ", tx1.to_dict()['id'])

    # sign with alice's private key
    tx1 = tx1.sign([alice.private_key])
    tx1_id = tx1.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("3.tx_double db response : ", b.write_transaction(tx1))
    # wait 2 sec
    sleep(delay)

    # get tx by id
    tx1 = b.get_transaction(tx1_id)
    block = list(b.get_blocks_status_containing_tx(tx1_id).keys())[0]
    votes = list(b.backend.get_votes_by_block_id(block))
    votes_cast = [vote['vote']['is_block_valid'] for vote in votes]
    election = b.get_blocks_status_containing_tx(tx1_id)
    print("3.tx_transfer query       : ", tx1)
    print("3.tx_transfer block       : ", block)
    print("3.            votes       : ", votes)
    print("3.            votes_cast  : ", votes_cast)
    print("3.            election    : ", election)
    print(" ")
Exemplo n.º 15
0
def create_transfer(public_key, private_key, include_spent):
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    },
                  data_id="334cd061-846b-4213-bd25-588e951def5f")

    ##################################################### 1.getfreeze
    b = Bigchain()

    utxo_freeze = b.get_freeze_outputs_only(public_key)

    # for u in utxo_freeze:
    #     # print(u)
    #     u.pop('details')
    print('userA frozen asset:')
    print(json.dumps(utxo_freeze, indent=4))
    # print(json.load(utxo))

    #
    # ##################################################### 2.Unfreeze
    inputs = []
    balance = 0
    for i in utxo_freeze:
        f = Fulfillment.from_dict({
            'fulfillment': i['details'],
            'input': {
                'cid': i['cid'],
                'txid': i['txid'],
            },
            'owners_before': [public_key],
        })
        inputs.append(f)
        balance += i['amount']

    # create trnsaction
    tx = Transaction.freeze_asset(inputs, [([public_key], balance, False)],
                                  asset)
    # #  inputs and asset

    # sign with alice's private key
    tx = tx.sign([private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    b.write_transaction(tx)
    print("unfreeze asset for userA")
    print("========wait for block and vote...========")
    # wait 2 sec
    sleep(5)

    # get tx by id
    tx = b.get_transaction(tx_id)

    print("unfreeze asset tx1_id:" + tx.to_dict()['id'])

    ##################################################### 3.UTXO
    #  inputs and asset
    utxo = b.get_outputs_filtered_not_include_freeze(public_key, include_spent)
    for u in utxo:
        # print(u)
        u.pop('details')
    print('userA unspent asset:')
    print(json.dumps(utxo, indent=4))
Exemplo n.º 16
0
def create_transfer(alicepub, alicepriv, include_spent):
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    # alice, bob = generate_keypair(), generate_keypair()

    # Digital Asset Definition (e.g. bicycle)
    asset = Asset(data={
        "bicycle": {
            "manufacturer": "bkfab",
            "serial_number": "abcd1234"
        }
    },
                  data_id="334cd061-846b-4213-bd25-588e951def5f")

    # Metadata Definition
    metadata = {'planet': 'earth'}

    # create trnsaction  TODO : owners_before might be node_pubkey in v0.8.0
    tx = Transaction.create([alicepub], [([alicepub], 100)],
                            metadata=metadata,
                            asset=asset)

    # sign with alice's private key
    tx = tx.sign([alicepriv])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    b.write_transaction(tx)
    print("========create 100 asset for userA========")
    print("========wait for block and vote...========")
    # wait 2 sec
    sleep(5)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("create 100 asset tx1_id:" + tx.to_dict()['id'])

    ##################################################### 3.UTXO
    #  inputs and asset
    utxo = b.get_outputs_filtered_not_include_freeze(alicepub, include_spent)
    for u in utxo:
        # print(u)
        u.pop('details')
    print('userA unspent asset:')
    print(json.dumps(utxo, indent=4))
    # print(json.load(utxo))

    ##################################################### 2.Freeze
    #  inputs and asset
    cid = 0
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment':
        condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before':
        condition['owners_after'],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx = Transaction.freeze_asset([inputs], [([alicepub], 90, True),
                                             ([alicepub], 10, False)], asset)

    # sign with alice's private key
    tx = tx.sign([alicepriv])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    b.write_transaction(tx)
    print("========freeze 90 asset for userA ========")
    print("========wait for block and vote...========")
    # wait 2 sec
    sleep(5)

    # get tx by id
    tx = b.get_transaction(tx_id)

    print("freeze 90 asset tx2_id:" + tx.to_dict()['id'])

    ##################################################### 3.UTXO
    #  inputs and asset
    utxo = b.get_outputs_filtered_not_include_freeze(alicepub, include_spent)
    for u in utxo:
        # print(u)
        u.pop('details')
    print('userA unspent asset:')
    print(json.dumps(utxo, indent=4))
Exemplo n.º 17
0
import requests
import time

from bigchaindb.common.transaction import Transaction, Asset, Fulfillment
from bigchaindb.common.crypto import generate_key_pair

# 一对多转账,生成1+3个公钥
pri_1, pub_1 = generate_key_pair()
pri_n1, pub_n1 = generate_key_pair()
pri_n2, pub_n2 = generate_key_pair()
pri_n3, pub_n3 = generate_key_pair()

delay = 4  # 发送交易后,等待建块投票延迟
msg = "1_to_n"
asset = Asset(data={'money': 'RMB'}, data_id='20170628150000', divisible=True)
metadata = {'raw': msg}

# pub_1先创建10000,再转给n1,n2,n3各2000/3000/5000
amount = 10000
amount_n1 = 2000
amount_n2 = 3000
amount_n3 = 5000

# pub_1创建交易
tx = Transaction.create([pub_1], [([pub_1], amount)], metadata=metadata, asset=asset)
tx = tx.sign([pri_1]).to_dict()
print("========create tx======")

# 发送给区块链节点
with requests.Session() as session:
    res = session.post('http://localhost:9984/uniledger/v1/transaction/createOrTransferTx', json=tx)
Exemplo n.º 18
0
def create_transfer():
    ##################################################### 1.CREATE
    # Cryptographic Identities Generation
    alice, bob, tom = generate_keypair(), generate_keypair(), generate_keypair()
    asset = Asset(data={"bicycle": {"manufacturer": "bkfab", "serial_number": "abcd1234"}})
    metadata = {'planet': 'earth'}

    tx = Transaction.create([alice.public_key], [([alice.public_key], 1)], metadata=metadata, asset=asset)
    print(" ")
    print("1.tx_create asset id    :  alice-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->alice")
    print("1.tx_create tx id       : ", tx.to_dict()['id'])

    # sign with alice's private key
    tx = tx.sign([alice.private_key])
    tx_id = tx.to_dict()['id']

    # write to backlog
    b = Bigchain()
    print("1.tx_create db response : ", b.write_transaction(tx))

    # wait 4 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("1.tx_create query       : ", tx)
    # print("tx1_id:"+tx.to_dict()['id'])
    print(" ")
    ##################################################### 2.TRANSFER
    #  inputs and asset
    cid = 0
    condition = tx.to_dict()['transaction']['conditions'][cid]
    inputs = Fulfillment.from_dict({
        'fulfillment': condition['condition']['details'],
        'input': {
            'cid': cid,
            'txid': tx.to_dict()['id'],
        },
        'owners_before': condition['owners_after'],
    })
    asset = Asset.from_dict(tx.to_dict()['transaction']['asset'])

    # transfer
    tx = Transaction.transfer([inputs], [([bob.public_key], 1)], asset)
    print("2.tx_transfer asset id    :  alice-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->bob")
    print("2.tx_transfer tx id       : ", tx.to_dict()['id'])
    print("2.tx_transfer tx          : ", tx.to_dict())
    print(" ")
    # sign with alice's private key
    tx = tx.sign([alice.private_key])

    # man in the middle attack, then write to backlog
    tx.conditions[0].owners_after = [tom.public_key]
    print("3.tx_attack asset id    :  alice-----bicycle(", tx.to_dict()['transaction']['asset']['id'], ")----->tom")
    print("3.tx_attack tx id       : ", tx.to_dict()['id'])
    print("3.tx_attack tx          : ", tx.to_dict())
    tx_id = tx.to_dict()['id']
    b = Bigchain()
    print("3.tx_attack db response : ", b.write_transaction(tx))

    # wait 4 sec
    sleep(delay)

    # get tx by id
    tx = b.get_transaction(tx_id)
    print("3.tx_attack query       : ", tx)
    print(" ")