コード例 #1
0
def insert_raw_transaction(raw_transaction, db):
    """Add a raw transaction to the database."""
    cursor = db.cursor()

    # one transaction per block
    block_index, block_hash, block_time = create_next_block(db,
                                                            parse_block=False)

    tx_hash = dummy_tx_hash(raw_transaction)
    tx = None
    tx_index = block_index - config.BURN_START + 1
    try:
        source, destination, btc_amount, fee, data, extra = blocks._get_tx_info(
            raw_transaction)
        transaction = (tx_index, tx_hash, block_index, block_hash, block_time,
                       source, destination, btc_amount, fee, data, True)
        cursor.execute(
            '''INSERT INTO transactions VALUES (?,?,?,?,?,?,?,?,?,?,?)''',
            transaction)
        tx = list(
            cursor.execute('''SELECT * FROM transactions WHERE tx_index = ?''',
                           (tx_index, )))[0]
    except exceptions.BTCOnlyError:
        pass

    cursor.close()

    MOCK_UTXO_SET.add_raw_transaction(raw_transaction,
                                      tx_id=tx_hash,
                                      confirmations=1)

    util.CURRENT_BLOCK_INDEX = block_index
    blocks.parse_block(db, block_index, block_time)
    return tx_hash, tx
コード例 #2
0
def insert_unconfirmed_raw_transaction(raw_transaction, db):
    """Add a raw transaction to the database."""
    # one transaction per block
    cursor = db.cursor()

    tx_hash = dummy_tx_hash(raw_transaction)

    # this isn't really correct, but it will do
    tx_index = list(cursor.execute('''SELECT tx_index FROM transactions ORDER BY tx_index DESC LIMIT 1'''))
    tx_index = tx_index[0]['tx_index'] if len(tx_index) else 0
    tx_index = tx_index + 1

    source, destination, btc_amount, fee, data = blocks._get_tx_info(raw_transaction)
    tx = {
        'tx_index': tx_index,
        'tx_hash': tx_hash,
        'block_index': config.MEMPOOL_BLOCK_INDEX,
        'block_hash': config.MEMPOOL_BLOCK_HASH,
        'block_time': int(time.time()),
        'source': source,
        'destination': destination,
        'btc_amount': btc_amount,
        'fee': fee,
        'data': data,
        'supported': True
    }

    cursor.close()

    MOCK_UTXO_SET.add_raw_transaction(raw_transaction, tx_id=tx_hash, confirmations=0)

    return tx
コード例 #3
0
def insert_raw_transaction(raw_transaction, db, rawtransactions_db):
    """Add a raw transaction to the database."""
    # one transaction per block
    block_index, block_hash, block_time = create_next_block(db,
                                                            parse_block=False)

    cursor = db.cursor()
    tx_index = block_index - config.BURN_START + 1

    tx_hash = hashlib.sha256('{}{}'.format(
        tx_index, raw_transaction).encode('utf-8')).hexdigest()
    # print(tx_hash)
    # Remember to add it to the log dump
    if pytest.config.option.savescenarios:
        save_rawtransaction(rawtransactions_db, tx_hash, raw_transaction)

    source, destination, btc_amount, fee, data = blocks._get_tx_info(
        raw_transaction)
    transaction = (tx_index, tx_hash, block_index, block_hash, block_time,
                   source, destination, btc_amount, fee, data, True)
    cursor.execute(
        '''INSERT INTO transactions VALUES (?,?,?,?,?,?,?,?,?,?,?)''',
        transaction)
    tx = list(
        cursor.execute('''SELECT * FROM transactions WHERE tx_index = ?''',
                       (tx_index, )))[0]
    cursor.close()

    util.CURRENT_BLOCK_INDEX = block_index  # TODO: Correct?!
    blocks.parse_block(db, block_index, block_time)
    return tx
コード例 #4
0
def insert_raw_transaction(raw_transaction, db):
    """Add a raw transaction to the database."""
    cursor = db.cursor()

    # one transaction per block
    block_index, block_hash, block_time = create_next_block(db, parse_block=False)

    tx_hash = dummy_tx_hash(raw_transaction)
    tx_index = block_index - config.BURN_START + 1

    source, destination, btc_amount, fee, data = blocks._get_tx_info(raw_transaction)
    transaction = (tx_index, tx_hash, block_index, block_hash, block_time, source, destination, btc_amount, fee, data, True)
    cursor.execute('''INSERT INTO transactions VALUES (?,?,?,?,?,?,?,?,?,?,?)''', transaction)
    tx = list(cursor.execute('''SELECT * FROM transactions WHERE tx_index = ?''', (tx_index,)))[0]
    cursor.close()

    MOCK_UTXO_SET.add_raw_transaction(raw_transaction, tx_id=tx_hash, confirmations=1)

    util.CURRENT_BLOCK_INDEX = block_index
    blocks.parse_block(db, block_index, block_time)
    return tx
コード例 #5
0
def insert_unconfirmed_raw_transaction(raw_transaction, db):
    """Add a raw transaction to the database."""
    # one transaction per block
    cursor = db.cursor()

    tx_hash = dummy_tx_hash(raw_transaction)

    # this isn't really correct, but it will do
    tx_index = list(
        cursor.execute(
            '''SELECT tx_index FROM transactions ORDER BY tx_index DESC LIMIT 1'''
        ))
    tx_index = tx_index[0]['tx_index'] if len(tx_index) else 0
    tx_index = tx_index + 1

    source, destination, btc_amount, fee, data, extra = blocks._get_tx_info(
        raw_transaction)
    tx = {
        'tx_index': tx_index,
        'tx_hash': tx_hash,
        'block_index': config.MEMPOOL_BLOCK_INDEX,
        'block_hash': config.MEMPOOL_BLOCK_HASH,
        'block_time': int(time.time()),
        'source': source,
        'destination': destination,
        'btc_amount': btc_amount,
        'fee': fee,
        'data': data,
        'supported': True
    }

    cursor.close()

    MOCK_UTXO_SET.add_raw_transaction(raw_transaction,
                                      tx_id=tx_hash,
                                      confirmations=0)

    return tx
コード例 #6
0
ファイル: util_test.py プロジェクト: F483/counterparty-lib
def insert_raw_transaction(raw_transaction, db, rawtransactions_db):
    """Add a raw transaction to the database."""
    # one transaction per block
    block_index, block_hash, block_time = create_next_block(db, parse_block=False)

    cursor = db.cursor()
    tx_index = block_index - config.BURN_START + 1

    tx_hash = hashlib.sha256('{}{}'.format(tx_index,raw_transaction).encode('utf-8')).hexdigest()
    # print(tx_hash)
    # Remember to add it to the log dump
    if pytest.config.option.savescenarios:
        save_rawtransaction(rawtransactions_db, tx_hash, raw_transaction)

    source, destination, btc_amount, fee, data = blocks._get_tx_info(raw_transaction)
    transaction = (tx_index, tx_hash, block_index, block_hash, block_time, source, destination, btc_amount, fee, data, True)
    cursor.execute('''INSERT INTO transactions VALUES (?,?,?,?,?,?,?,?,?,?,?)''', transaction)
    tx = list(cursor.execute('''SELECT * FROM transactions WHERE tx_index = ?''', (tx_index,)))[0]
    cursor.close()

    util.CURRENT_BLOCK_INDEX = block_index  # TODO: Correct?!
    blocks.parse_block(db, block_index, block_time)
    return tx
コード例 #7
0
def construct (db, tx_info, encoding='auto',
               fee_per_kb=config.DEFAULT_FEE_PER_KB,
               estimate_fee_per_kb=None, estimate_fee_per_kb_nblocks=config.ESTIMATE_FEE_NBLOCKS,
               regular_dust_size=config.DEFAULT_REGULAR_DUST_SIZE,
               multisig_dust_size=config.DEFAULT_MULTISIG_DUST_SIZE,
               op_return_value=config.DEFAULT_OP_RETURN_VALUE,
               exact_fee=None, fee_provided=0, provided_pubkeys=None, dust_return_pubkey=None,
               allow_unconfirmed_inputs=False, unspent_tx_hash=None, custom_inputs=None, disable_utxo_locks=False):

    if estimate_fee_per_kb is None:
        estimate_fee_per_kb = config.ESTIMATE_FEE_PER_KB

    global UTXO_LOCKS

    desired_encoding = encoding
    (source, destination_outputs, data) = tx_info

    if dust_return_pubkey:
        dust_return_pubkey = binascii.unhexlify(dust_return_pubkey)

    # Source.
        # If public key is necessary for construction of (unsigned)
        # transaction, use the public key provided, or find it from the
        # blockchain.
    if source:
        script.validate(source)

    source_is_p2sh = script.is_p2sh(source)

    # Sanity checks.
    if exact_fee and not isinstance(exact_fee, int):
        raise exceptions.TransactionError('Exact fees must be in satoshis.')
    if not isinstance(fee_provided, int):
        raise exceptions.TransactionError('Fee provided must be in satoshis.')

    if UTXO_LOCKS is None and config.UTXO_LOCKS_MAX_ADDRESSES > 0:  # initialize if configured
        UTXO_LOCKS = util.DictCache(size=config.UTXO_LOCKS_MAX_ADDRESSES)

    '''Destinations'''

    # Destination outputs.
        # Replace multi‐sig addresses with multi‐sig pubkeys. Check that the
        # destination output isn’t a dust output. Set null values to dust size.
    destination_outputs_new = []
    for (address, value) in destination_outputs:

        # Value.
        if script.is_multisig(address):
            dust_size = multisig_dust_size
        else:
            dust_size = regular_dust_size
        if value == None:
            value = dust_size
        elif value < dust_size:
            raise exceptions.TransactionError('Destination output is dust.')

        # Address.
        script.validate(address)
        if script.is_multisig(address):
            destination_outputs_new.append((backend.multisig_pubkeyhashes_to_pubkeys(address, provided_pubkeys), value))
        else:
            destination_outputs_new.append((address, value))

    destination_outputs = destination_outputs_new
    destination_btc_out = sum([value for address, value in destination_outputs])


    '''Data'''

    if data:
        # Data encoding methods (choose and validate).
        if encoding == 'auto':
            if len(data) + len(config.PREFIX) <= config.OP_RETURN_MAX_SIZE:
                encoding = 'opreturn'
            else:
                encoding = 'multisig'

        elif encoding not in ('pubkeyhash', 'multisig', 'opreturn'):
            raise exceptions.TransactionError('Unknown encoding‐scheme.')


        if encoding == 'multisig':
            # dust_return_pubkey should be set or explicitly set to False to use the default configured for the node
            #  the default for the node is optional so could fail
            if (source_is_p2sh and dust_return_pubkey is None) or (dust_return_pubkey is False and config.P2SH_DUST_RETURN_PUBKEY is None):
                raise exceptions.TransactionError("Can't use multisig encoding when source is P2SH and no dust_return_pubkey is provided.")
            elif dust_return_pubkey is False:
                dust_return_pubkey = binascii.unhexlify(config.P2SH_DUST_RETURN_PUBKEY)

        # Divide data into chunks.
        if encoding == 'pubkeyhash':
            # Prefix is also a suffix here.
            chunk_size = 20 - 1 - 8
        elif encoding == 'multisig':
            # Two pubkeys, minus length byte, minus prefix, minus two nonces,
            # minus two sign bytes.
            chunk_size = (33 * 2) - 1 - 8 - 2 - 2
        elif encoding == 'opreturn':
            chunk_size = config.OP_RETURN_MAX_SIZE
            if len(data) + len(config.PREFIX) > chunk_size:
                raise exceptions.TransactionError('One `OP_RETURN` output per transaction.')
        data_array = list(chunks(data, chunk_size))

        # Data outputs.
        if encoding == 'multisig':
            data_value = multisig_dust_size
        elif encoding == 'opreturn':
            data_value = op_return_value
        else:
            # Pay‐to‐PubKeyHash, e.g.
            data_value = regular_dust_size
        data_output = (data_array, data_value)

        if not dust_return_pubkey:
            if encoding == 'multisig':
                dust_return_pubkey = get_dust_return_pubkey(source, provided_pubkeys, encoding)
            else:
                dust_return_pubkey = None
    else:
        data_array = []
        data_output = None
        dust_return_pubkey = None

    data_btc_out = sum([data_value for data_chunk in data_array])

    '''Inputs'''

    # Calculate collective size of outputs, for fee calculation.
    p2pkhsize = 25 + 9
    if encoding == 'multisig':
        data_output_size = 81       # 71 for the data
    elif encoding == 'opreturn':
        data_output_size = 90       # 80 for the data
    else:
        data_output_size = p2pkhsize   # Pay‐to‐PubKeyHash (25 for the data?)
    outputs_size = (p2pkhsize * len(destination_outputs)) + (len(data_array) * data_output_size)

    # Get inputs.
    multisig_inputs = not data

    use_inputs = custom_inputs  # Array of UTXOs, as retrieved by listunspent function from bitcoind
    if custom_inputs is None:
        if unspent_tx_hash is not None:
            unspent = backend.get_unspent_txouts(source, unconfirmed=allow_unconfirmed_inputs, unspent_tx_hash=unspent_tx_hash, multisig_inputs=multisig_inputs)
        else:
            unspent = backend.get_unspent_txouts(source, unconfirmed=allow_unconfirmed_inputs, multisig_inputs=multisig_inputs)

        # filter out any locked UTXOs to prevent creating transactions that spend the same UTXO when they're created at the same time
        if UTXO_LOCKS is not None and source in UTXO_LOCKS:
            unspentkeys = {make_outkey(output) for output in unspent}
            filtered_unspentkeys = unspentkeys - UTXO_LOCKS[source].keys()
            unspent = [output for output in unspent if make_outkey(output) in filtered_unspentkeys]

        unspent = backend.sort_unspent_txouts(unspent)
        logger.debug('Sorted candidate UTXOs: {}'.format([print_coin(coin) for coin in unspent]))
        use_inputs = unspent

    # use backend estimated fee_per_kb
    if estimate_fee_per_kb:
        estimated_fee_per_kb = backend.fee_per_kb(estimate_fee_per_kb_nblocks)
        if estimated_fee_per_kb is not None:
            fee_per_kb = max(estimated_fee_per_kb, fee_per_kb)  # never drop below the default fee_per_kb

    logger.debug('Fee/KB {:.8f}'.format(fee_per_kb / config.UNIT))

    inputs = []
    btc_in = 0
    change_quantity = 0
    sufficient_funds = False
    final_fee = fee_per_kb
    desired_input_count = 1

    if encoding == 'multisig' and data_array and util.enabled('bytespersigop'):
        desired_input_count = len(data_array) * 2

    for coin in use_inputs:
        logger.debug('New input: {}'.format(print_coin(coin)))
        inputs.append(coin)
        btc_in += round(coin['amount'] * config.UNIT)

        size = 181 * len(inputs) + outputs_size + 10
        necessary_fee = int(size / 1000 * fee_per_kb)

        # If exact fee is specified, use that. Otherwise, calculate size of tx
        # and base fee on that (plus provide a minimum fee for selling BTC).
        if exact_fee:
            final_fee = exact_fee
        else:
            final_fee = max(fee_provided, necessary_fee)

        # Check if good.
        btc_out = destination_btc_out + data_btc_out
        change_quantity = btc_in - (btc_out + final_fee)
        logger.debug('Size: {} Fee: {:.8f} Change quantity: {:.8f} BTC'.format(size, final_fee / config.UNIT, change_quantity / config.UNIT))
        # If change is necessary, must not be a dust output.
        if change_quantity == 0 or change_quantity >= regular_dust_size:
            sufficient_funds = True
            if len(inputs) >= desired_input_count:
                break

    if not sufficient_funds:
        # Approximate needed change, fee by with most recently calculated
        # quantities.
        btc_out = destination_btc_out + data_btc_out
        total_btc_out = btc_out + max(change_quantity, 0) + final_fee
        raise exceptions.BalanceError('Insufficient {} at address {}. (Need approximately {} {}.) To spend unconfirmed coins, use the flag `--unconfirmed`. (Unconfirmed coins cannot be spent from multi‐sig addresses.)'.format(config.BTC, source, total_btc_out / config.UNIT, config.BTC))

    # Lock the source's inputs (UTXOs) chosen for this transaction
    if UTXO_LOCKS is not None and not disable_utxo_locks:
        if source not in UTXO_LOCKS:
            UTXO_LOCKS[source] = cachetools.TTLCache(
                UTXO_LOCKS_PER_ADDRESS_MAXSIZE, config.UTXO_LOCKS_MAX_AGE)

        for input in inputs:
            UTXO_LOCKS[source][make_outkey(input)] = input

        logger.debug("UTXO locks: Potentials ({}): {}, Used: {}, locked UTXOs: {}".format(
            len(unspent), [make_outkey(coin) for coin in unspent],
            [make_outkey(input) for input in inputs], list(UTXO_LOCKS[source].keys())))

    '''Finish'''

    # Change output.
    if change_quantity:
        if script.is_multisig(source):
            change_address = backend.multisig_pubkeyhashes_to_pubkeys(source, provided_pubkeys)
        else:
            change_address = source
        change_output = (change_address, change_quantity)
    else:
        change_output = None

    # in bitcoin core v0.12.1 a -bytespersigop was added that messes with bare multisig transactions,
    #  as a safeguard we fall back to pubkeyhash encoding when unsure
    # when len(inputs) > len(data_outputs) there's more bytes:sigops ratio and we can safely continue
    if encoding == 'multisig' and inputs and data_output and len(inputs) < len(data_array) * 2 and util.enabled('bytespersigop'):
        # if auto encoding we can do pubkeyhash encoding instead
        if desired_encoding == 'auto':
            return construct(db, tx_info,
                             encoding='pubkeyhash',
                             fee_per_kb=fee_per_kb,
                             regular_dust_size=regular_dust_size,
                             multisig_dust_size=multisig_dust_size,
                             op_return_value=op_return_value,
                             exact_fee=exact_fee, fee_provided=fee_provided, provided_pubkeys=provided_pubkeys,
                             allow_unconfirmed_inputs=allow_unconfirmed_inputs, unspent_tx_hash=unspent_tx_hash, custom_inputs=custom_inputs)
        # otherwise raise exception
        else:
            raise exceptions.EncodingError("multisig will be rejected by Bitcoin Core >= v0.12.1, you should use `encoding=auto` or `encoding=pubkeyhash`")

    # Serialise inputs and outputs.
    unsigned_tx = serialise(encoding, inputs, destination_outputs,
                            data_output, change_output,
                            dust_return_pubkey=dust_return_pubkey)
    unsigned_tx_hex = binascii.hexlify(unsigned_tx).decode('utf-8')


    '''Sanity Check'''

    from counterpartylib.lib import blocks

    # Desired transaction info.
    (desired_source, desired_destination_outputs, desired_data) = tx_info
    desired_source = script.make_canonical(desired_source)
    desired_destination = script.make_canonical(desired_destination_outputs[0][0]) if desired_destination_outputs else ''
    # NOTE: Include change in destinations for BTC transactions.
    # if change_output and not desired_data and desired_destination != config.UNSPENDABLE:
    #    if desired_destination == '':
    #        desired_destination = desired_source
    #    else:
    #        desired_destination += '-{}'.format(desired_source)
    # NOTE
    if desired_data == None:
        desired_data = b''

    # Parsed transaction info.
    try:
        parsed_source, parsed_destination, x, y, parsed_data = blocks._get_tx_info(unsigned_tx_hex)
    except exceptions.BTCOnlyError:
        # Skip BTC‐only transactions.
        return unsigned_tx_hex
    desired_source = script.make_canonical(desired_source)

    # Check desired info against parsed info.
    desired = (desired_source, desired_destination, desired_data)
    parsed = (parsed_source, parsed_destination, parsed_data)
    if desired != parsed:
        # Unlock (revert) UTXO locks
        if UTXO_LOCKS is not None:
            for input in inputs:
                UTXO_LOCKS[source].pop(make_outkey(input), None)

        raise exceptions.TransactionError('Constructed transaction does not parse correctly: {} ≠ {}'.format(desired, parsed))

    return unsigned_tx_hex
コード例 #8
0
def construct(db,
              tx_info,
              encoding='auto',
              fee_per_kb=config.DEFAULT_FEE_PER_KB,
              estimate_fee_per_kb=None,
              estimate_fee_per_kb_nblocks=config.ESTIMATE_FEE_NBLOCKS,
              regular_dust_size=config.DEFAULT_REGULAR_DUST_SIZE,
              multisig_dust_size=config.DEFAULT_MULTISIG_DUST_SIZE,
              op_return_value=config.DEFAULT_OP_RETURN_VALUE,
              exact_fee=None,
              fee_provided=0,
              provided_pubkeys=None,
              dust_return_pubkey=None,
              allow_unconfirmed_inputs=False,
              unspent_tx_hash=None,
              custom_inputs=None,
              disable_utxo_locks=False):

    if estimate_fee_per_kb is None:
        estimate_fee_per_kb = config.ESTIMATE_FEE_PER_KB

    global UTXO_LOCKS

    desired_encoding = encoding
    (source, destination_outputs, data) = tx_info

    if dust_return_pubkey:
        dust_return_pubkey = binascii.unhexlify(dust_return_pubkey)

    # Source.
    # If public key is necessary for construction of (unsigned)
    # transaction, use the public key provided, or find it from the
    # blockchain.
    if source:
        script.validate(source)

    source_is_p2sh = script.is_p2sh(source)

    # Sanity checks.
    if exact_fee and not isinstance(exact_fee, int):
        raise exceptions.TransactionError('Exact fees must be in satoshis.')
    if not isinstance(fee_provided, int):
        raise exceptions.TransactionError('Fee provided must be in satoshis.')

    if UTXO_LOCKS is None and config.UTXO_LOCKS_MAX_ADDRESSES > 0:  # initialize if configured
        UTXO_LOCKS = util.DictCache(size=config.UTXO_LOCKS_MAX_ADDRESSES)
    '''Destinations'''

    # Destination outputs.
    # Replace multi‐sig addresses with multi‐sig pubkeys. Check that the
    # destination output isn’t a dust output. Set null values to dust size.
    destination_outputs_new = []
    for (address, value) in destination_outputs:

        # Value.
        if script.is_multisig(address):
            dust_size = multisig_dust_size
        else:
            dust_size = regular_dust_size
        if value == None:
            value = dust_size
        elif value < dust_size:
            raise exceptions.TransactionError('Destination output is dust.')

        # Address.
        script.validate(address)
        if script.is_multisig(address):
            destination_outputs_new.append(
                (backend.multisig_pubkeyhashes_to_pubkeys(
                    address, provided_pubkeys), value))
        else:
            destination_outputs_new.append((address, value))

    destination_outputs = destination_outputs_new
    destination_btc_out = sum(
        [value for address, value in destination_outputs])
    '''Data'''

    if data:
        # Data encoding methods (choose and validate).
        if encoding == 'auto':
            if len(data) + len(config.PREFIX) <= config.OP_RETURN_MAX_SIZE:
                encoding = 'opreturn'
            else:
                encoding = 'multisig'

        elif encoding not in ('pubkeyhash', 'multisig', 'opreturn'):
            raise exceptions.TransactionError('Unknown encoding‐scheme.')

        if encoding == 'multisig':
            # dust_return_pubkey should be set or explicitly set to False to use the default configured for the node
            #  the default for the node is optional so could fail
            if (source_is_p2sh and dust_return_pubkey is None) or (
                    dust_return_pubkey is False
                    and config.P2SH_DUST_RETURN_PUBKEY is None):
                raise exceptions.TransactionError(
                    "Can't use multisig encoding when source is P2SH and no dust_return_pubkey is provided."
                )
            elif dust_return_pubkey is False:
                dust_return_pubkey = binascii.unhexlify(
                    config.P2SH_DUST_RETURN_PUBKEY)

        # Divide data into chunks.
        if encoding == 'pubkeyhash':
            # Prefix is also a suffix here.
            chunk_size = 20 - 1 - 8
        elif encoding == 'multisig':
            # Two pubkeys, minus length byte, minus prefix, minus two nonces,
            # minus two sign bytes.
            chunk_size = (33 * 2) - 1 - 8 - 2 - 2
        elif encoding == 'opreturn':
            chunk_size = config.OP_RETURN_MAX_SIZE
            if len(data) + len(config.PREFIX) > chunk_size:
                raise exceptions.TransactionError(
                    'One `OP_RETURN` output per transaction.')
        data_array = list(chunks(data, chunk_size))

        # Data outputs.
        if encoding == 'multisig':
            data_value = multisig_dust_size
        elif encoding == 'opreturn':
            data_value = op_return_value
        else:
            # Pay‐to‐PubKeyHash, e.g.
            data_value = regular_dust_size
        data_output = (data_array, data_value)

        if not dust_return_pubkey:
            if encoding == 'multisig':
                dust_return_pubkey = get_dust_return_pubkey(
                    source, provided_pubkeys, encoding)
            else:
                dust_return_pubkey = None
    else:
        data_array = []
        data_output = None
        dust_return_pubkey = None

    data_btc_out = sum([data_value for data_chunk in data_array])
    '''Inputs'''

    # Calculate collective size of outputs, for fee calculation.
    p2pkhsize = 25 + 9
    if encoding == 'multisig':
        data_output_size = 81  # 71 for the data
    elif encoding == 'opreturn':
        data_output_size = 90  # 80 for the data
    else:
        data_output_size = p2pkhsize  # Pay‐to‐PubKeyHash (25 for the data?)
    outputs_size = (p2pkhsize * len(destination_outputs)) + (len(data_array) *
                                                             data_output_size)

    # Get inputs.
    multisig_inputs = not data

    use_inputs = custom_inputs  # Array of UTXOs, as retrieved by listunspent function from bitcoind
    if custom_inputs is None:
        if unspent_tx_hash is not None:
            unspent = backend.get_unspent_txouts(
                source,
                unconfirmed=allow_unconfirmed_inputs,
                unspent_tx_hash=unspent_tx_hash,
                multisig_inputs=multisig_inputs)
        else:
            unspent = backend.get_unspent_txouts(
                source,
                unconfirmed=allow_unconfirmed_inputs,
                multisig_inputs=multisig_inputs)

        # filter out any locked UTXOs to prevent creating transactions that spend the same UTXO when they're created at the same time
        if UTXO_LOCKS is not None and source in UTXO_LOCKS:
            unspentkeys = {make_outkey(output) for output in unspent}
            filtered_unspentkeys = unspentkeys - UTXO_LOCKS[source].keys()
            unspent = [
                output for output in unspent
                if make_outkey(output) in filtered_unspentkeys
            ]

        unspent = backend.sort_unspent_txouts(unspent)
        logger.debug('Sorted candidate UTXOs: {}'.format(
            [print_coin(coin) for coin in unspent]))
        use_inputs = unspent

    # use backend estimated fee_per_kb
    if estimate_fee_per_kb:
        estimated_fee_per_kb = backend.fee_per_kb(estimate_fee_per_kb_nblocks)
        if estimated_fee_per_kb is not None:
            fee_per_kb = max(
                estimated_fee_per_kb,
                fee_per_kb)  # never drop below the default fee_per_kb

    logger.debug('Fee/KB {:.8f}'.format(fee_per_kb / config.UNIT))

    inputs = []
    btc_in = 0
    change_quantity = 0
    sufficient_funds = False
    final_fee = fee_per_kb
    desired_input_count = 1

    if encoding == 'multisig' and data_array and util.enabled('bytespersigop'):
        desired_input_count = len(data_array) * 2

    for coin in use_inputs:
        logger.debug('New input: {}'.format(print_coin(coin)))
        inputs.append(coin)
        btc_in += round(coin['amount'] * config.UNIT)

        size = 181 * len(inputs) + outputs_size + 10
        necessary_fee = int(size / 1000 * fee_per_kb)

        # If exact fee is specified, use that. Otherwise, calculate size of tx
        # and base fee on that (plus provide a minimum fee for selling BTC).
        if exact_fee:
            final_fee = exact_fee
        else:
            final_fee = max(fee_provided, necessary_fee)

        # Check if good.
        btc_out = destination_btc_out + data_btc_out
        change_quantity = btc_in - (btc_out + final_fee)
        logger.debug('Size: {} Fee: {:.8f} Change quantity: {:.8f} BTC'.format(
            size, final_fee / config.UNIT, change_quantity / config.UNIT))
        # If change is necessary, must not be a dust output.
        if change_quantity == 0 or change_quantity >= regular_dust_size:
            sufficient_funds = True
            if len(inputs) >= desired_input_count:
                break

    if not sufficient_funds:
        # Approximate needed change, fee by with most recently calculated
        # quantities.
        btc_out = destination_btc_out + data_btc_out
        total_btc_out = btc_out + max(change_quantity, 0) + final_fee
        raise exceptions.BalanceError(
            'Insufficient {} at address {}. (Need approximately {} {}.) To spend unconfirmed coins, use the flag `--unconfirmed`. (Unconfirmed coins cannot be spent from multi‐sig addresses.)'
            .format(config.BTC, source, total_btc_out / config.UNIT,
                    config.BTC))

    # Lock the source's inputs (UTXOs) chosen for this transaction
    if UTXO_LOCKS is not None and not disable_utxo_locks:
        if source not in UTXO_LOCKS:
            UTXO_LOCKS[source] = cachetools.TTLCache(
                UTXO_LOCKS_PER_ADDRESS_MAXSIZE, config.UTXO_LOCKS_MAX_AGE)

        for input in inputs:
            UTXO_LOCKS[source][make_outkey(input)] = input

        logger.debug(
            "UTXO locks: Potentials ({}): {}, Used: {}, locked UTXOs: {}".
            format(len(unspent), [make_outkey(coin) for coin in unspent],
                   [make_outkey(input) for input in inputs],
                   list(UTXO_LOCKS[source].keys())))
    '''Finish'''

    # Change output.
    if change_quantity:
        if script.is_multisig(source):
            change_address = backend.multisig_pubkeyhashes_to_pubkeys(
                source, provided_pubkeys)
        else:
            change_address = source
        change_output = (change_address, change_quantity)
    else:
        change_output = None

    # in bitcoin core v0.12.1 a -bytespersigop was added that messes with bare multisig transactions,
    #  as a safeguard we fall back to pubkeyhash encoding when unsure
    # when len(inputs) > len(data_outputs) there's more bytes:sigops ratio and we can safely continue
    if encoding == 'multisig' and inputs and data_output and len(
            inputs) < len(data_array) * 2 and util.enabled('bytespersigop'):
        # if auto encoding we can do pubkeyhash encoding instead
        if desired_encoding == 'auto':
            return construct(db,
                             tx_info,
                             encoding='pubkeyhash',
                             fee_per_kb=fee_per_kb,
                             regular_dust_size=regular_dust_size,
                             multisig_dust_size=multisig_dust_size,
                             op_return_value=op_return_value,
                             exact_fee=exact_fee,
                             fee_provided=fee_provided,
                             provided_pubkeys=provided_pubkeys,
                             allow_unconfirmed_inputs=allow_unconfirmed_inputs,
                             unspent_tx_hash=unspent_tx_hash,
                             custom_inputs=custom_inputs)
        # otherwise raise exception
        else:
            raise exceptions.EncodingError(
                "multisig will be rejected by Bitcoin Core >= v0.12.1, you should use `encoding=auto` or `encoding=pubkeyhash`"
            )

    # Serialise inputs and outputs.
    unsigned_tx = serialise(encoding,
                            inputs,
                            destination_outputs,
                            data_output,
                            change_output,
                            dust_return_pubkey=dust_return_pubkey)
    unsigned_tx_hex = binascii.hexlify(unsigned_tx).decode('utf-8')
    '''Sanity Check'''

    from counterpartylib.lib import blocks

    # Desired transaction info.
    (desired_source, desired_destination_outputs, desired_data) = tx_info
    desired_source = script.make_canonical(desired_source)
    desired_destination = script.make_canonical(
        desired_destination_outputs[0]
        [0]) if desired_destination_outputs else ''
    # NOTE: Include change in destinations for BTC transactions.
    # if change_output and not desired_data and desired_destination != config.UNSPENDABLE:
    #    if desired_destination == '':
    #        desired_destination = desired_source
    #    else:
    #        desired_destination += '-{}'.format(desired_source)
    # NOTE
    if desired_data == None:
        desired_data = b''

    # Parsed transaction info.
    try:
        parsed_source, parsed_destination, x, y, parsed_data = blocks._get_tx_info(
            unsigned_tx_hex)
    except exceptions.BTCOnlyError:
        # Skip BTC‐only transactions.
        return unsigned_tx_hex
    desired_source = script.make_canonical(desired_source)

    # Check desired info against parsed info.
    desired = (desired_source, desired_destination, desired_data)
    parsed = (parsed_source, parsed_destination, parsed_data)
    if desired != parsed:
        # Unlock (revert) UTXO locks
        if UTXO_LOCKS is not None:
            for input in inputs:
                UTXO_LOCKS[source].pop(make_outkey(input), None)

        raise exceptions.TransactionError(
            'Constructed transaction does not parse correctly: {} ≠ {}'.format(
                desired, parsed))

    return unsigned_tx_hex
コード例 #9
0
def construct(
    db,
    tx_info,
    encoding='auto',
    fee_per_kb=config.DEFAULT_FEE_PER_KB,
    estimate_fee_per_kb=None,
    estimate_fee_per_kb_conf_target=config.ESTIMATE_FEE_CONF_TARGET,
    estimate_fee_per_kb_mode=config.ESTIMATE_FEE_MODE,
    estimate_fee_per_kb_nblocks=config.ESTIMATE_FEE_CONF_TARGET,
    regular_dust_size=config.DEFAULT_REGULAR_DUST_SIZE,
    multisig_dust_size=config.DEFAULT_MULTISIG_DUST_SIZE,
    op_return_value=config.DEFAULT_OP_RETURN_VALUE,
    exact_fee=None,
    fee_provided=0,
    provided_pubkeys=None,
    dust_return_pubkey=None,
    allow_unconfirmed_inputs=False,
    unspent_tx_hash=None,
    custom_inputs=None,
    disable_utxo_locks=False,
    extended_tx_info=False,
    old_style_api=None,
    segwit=False,
    p2sh_source_multisig_pubkeys=None,
    p2sh_source_multisig_pubkeys_required=None,
    p2sh_pretx_txid=None,
):

    if estimate_fee_per_kb is None:
        estimate_fee_per_kb = config.ESTIMATE_FEE_PER_KB

    global UTXO_LOCKS, UTXO_P2SH_ENCODING_LOCKS

    # lazy assign from config, because when set as default it's evaluated before it's configured
    if old_style_api is None:
        old_style_api = config.OLD_STYLE_API

    (source, destination_outputs, data) = tx_info

    if dust_return_pubkey:
        dust_return_pubkey = binascii.unhexlify(dust_return_pubkey)

    if p2sh_source_multisig_pubkeys:
        p2sh_source_multisig_pubkeys = [
            binascii.unhexlify(p) for p in p2sh_source_multisig_pubkeys
        ]

    # Source.
    # If public key is necessary for construction of (unsigned)
    # transaction, use the public key provided, or find it from the
    # blockchain.
    if source:
        script.validate(source)

    source_is_p2sh = script.is_p2sh(source)

    # Normalize source
    if script.is_multisig(source):
        source_address = backend.multisig_pubkeyhashes_to_pubkeys(
            source, provided_pubkeys)
    else:
        source_address = source

    # Sanity checks.
    if exact_fee and not isinstance(exact_fee, int):
        raise exceptions.TransactionError('Exact fees must be in satoshis.')
    if not isinstance(fee_provided, int):
        raise exceptions.TransactionError('Fee provided must be in satoshis.')
    '''Determine encoding method'''

    if data:
        desired_encoding = encoding
        # Data encoding methods (choose and validate).
        if desired_encoding == 'auto':
            if len(data) + len(config.PREFIX) <= config.OP_RETURN_MAX_SIZE:
                encoding = 'opreturn'
            else:
                encoding = 'p2sh' if not old_style_api and util.enabled(
                    'p2sh_encoding'
                ) else 'multisig'  # p2sh is not possible with old_style_api

        elif desired_encoding == 'p2sh' and not util.enabled('p2sh_encoding'):
            raise exceptions.TransactionError('P2SH encoding not enabled yet')

        elif encoding not in ('pubkeyhash', 'multisig', 'opreturn', 'p2sh'):
            raise exceptions.TransactionError('Unknown encoding‐scheme.')
    else:
        # no data
        encoding = None
    '''Destinations'''

    # Destination outputs.
    # Replace multi‐sig addresses with multi‐sig pubkeys. Check that the
    # destination output isn’t a dust output. Set null values to dust size.
    destination_outputs_new = []
    if encoding != 'p2sh':
        for (address, value) in destination_outputs:

            # Value.
            if script.is_multisig(address):
                dust_size = multisig_dust_size
            else:
                dust_size = regular_dust_size
            if value == None:
                value = dust_size
            elif value < dust_size:
                raise exceptions.TransactionError(
                    'Destination output is dust.')

            # Address.
            script.validate(address)
            if script.is_multisig(address):
                destination_outputs_new.append(
                    (backend.multisig_pubkeyhashes_to_pubkeys(
                        address, provided_pubkeys), value))
            else:
                destination_outputs_new.append((address, value))

    destination_outputs = destination_outputs_new
    destination_btc_out = sum(
        [value for address, value in destination_outputs])
    '''Data'''

    if data:
        # @TODO: p2sh encoding require signable dust key
        if encoding == 'multisig':
            # dust_return_pubkey should be set or explicitly set to False to use the default configured for the node
            #  the default for the node is optional so could fail
            if (source_is_p2sh and dust_return_pubkey is None) or (
                    dust_return_pubkey is False
                    and config.P2SH_DUST_RETURN_PUBKEY is None):
                raise exceptions.TransactionError(
                    "Can't use multisig encoding when source is P2SH and no dust_return_pubkey is provided."
                )
            elif dust_return_pubkey is False:
                dust_return_pubkey = binascii.unhexlify(
                    config.P2SH_DUST_RETURN_PUBKEY)

        # Divide data into chunks.
        if encoding == 'pubkeyhash':
            # Prefix is also a suffix here.
            chunk_size = 20 - 1 - 8
        elif encoding == 'multisig':
            # Two pubkeys, minus length byte, minus prefix, minus two nonces,
            # minus two sign bytes.
            chunk_size = (33 * 2) - 1 - 8 - 2 - 2
        elif encoding == 'p2sh':
            chunk_size = p2sh_encoding.maximum_data_chunk_size()
        elif encoding == 'opreturn':
            chunk_size = config.OP_RETURN_MAX_SIZE
            if len(data) + len(config.PREFIX) > chunk_size:
                raise exceptions.TransactionError(
                    'One `OP_RETURN` output per transaction.')
        data_array = list(chunks(data, chunk_size))

        # Data outputs.
        if encoding == 'multisig':
            data_value = multisig_dust_size
        elif encoding == 'p2sh':
            data_value = 0  # this will be calculated later
        elif encoding == 'opreturn':
            data_value = op_return_value
        else:
            # Pay‐to‐PubKeyHash, e.g.
            data_value = regular_dust_size
        data_output = (data_array, data_value)

        if not dust_return_pubkey:
            if encoding == 'multisig' or encoding == 'p2sh' and not source_is_p2sh:
                dust_return_pubkey = get_dust_return_pubkey(
                    source, provided_pubkeys, encoding)
            else:
                dust_return_pubkey = None
    else:
        data_value = 0
        data_array = []
        data_output = None
        dust_return_pubkey = None

    data_btc_out = data_value * len(data_array)
    logger.getChild('p2shdebug').debug(
        'data_btc_out=%s (data_value=%d len(data_array)=%d)' %
        (data_btc_out, data_value, len(data_array)))
    '''Inputs'''
    btc_in = 0
    final_fee = 0
    # Calculate collective size of outputs, for fee calculation.
    p2pkhsize = 25 + 9
    if encoding == 'multisig':
        data_output_size = 81  # 71 for the data
    elif encoding == 'opreturn':
        # prefix + data + 10 bytes script overhead
        data_output_size = len(config.PREFIX) + 10
        if data is not None:
            data_output_size = data_output_size + len(data)
    else:
        data_output_size = p2pkhsize  # Pay‐to‐PubKeyHash (25 for the data?)
    outputs_size = (p2pkhsize * len(destination_outputs)) + (len(data_array) *
                                                             data_output_size)

    if encoding == 'p2sh':
        # calculate all the p2sh outputs
        size_for_fee, datatx_necessary_fee, data_value, data_btc_out = p2sh_encoding.calculate_outputs(
            destination_outputs, data_array, fee_per_kb)
        # replace the data value
        data_output = (data_array, data_value)
    else:
        sum_data_output_size = len(data_array) * data_output_size
        size_for_fee = (
            (25 + 9) * len(destination_outputs)) + sum_data_output_size

    if not (encoding == 'p2sh' and p2sh_pretx_txid):
        inputs, change_quantity, n_btc_in, n_final_fee = construct_coin_selection(
            encoding, data_array, source, allow_unconfirmed_inputs,
            unspent_tx_hash, custom_inputs, fee_per_kb, estimate_fee_per_kb,
            estimate_fee_per_kb_nblocks, exact_fee, size_for_fee, fee_provided,
            destination_btc_out, data_btc_out, regular_dust_size,
            disable_utxo_locks)
        btc_in = n_btc_in
        final_fee = n_final_fee
    else:
        # when encoding is P2SH and the pretx txid is passed we can skip coinselection
        inputs, change_quantity = None, None
    '''Finish'''

    if change_quantity:
        change_output = (source_address, change_quantity)
    else:
        change_output = None

    unsigned_pretx_hex = None
    unsigned_tx_hex = None

    pretx_txid = None
    if encoding == 'p2sh':
        assert not (segwit and p2sh_pretx_txid
                    )  # shouldn't do old style with segwit enabled

        if p2sh_pretx_txid:
            pretx_txid = p2sh_pretx_txid if isinstance(
                p2sh_pretx_txid,
                bytes) else binascii.unhexlify(p2sh_pretx_txid)
            unsigned_pretx = None
        else:
            destination_value_sum = sum(
                [value for (destination, value) in destination_outputs])
            source_value = destination_value_sum

            if change_output:
                # add the difference between source and destination to the change
                change_value = change_output[1] + (destination_value_sum -
                                                   source_value)
                change_output = (change_output[0], change_value)

            unsigned_pretx = serializer.serialise_p2sh_pretx(
                inputs,
                source=source_address,
                source_value=source_value,
                data_output=data_output,
                change_output=change_output,
                pubkey=dust_return_pubkey,
                multisig_pubkeys=p2sh_source_multisig_pubkeys,
                multisig_pubkeys_required=p2sh_source_multisig_pubkeys_required
            )
            unsigned_pretx_hex = binascii.hexlify(unsigned_pretx).decode(
                'utf-8')

        # with segwit we already know the txid and can return both
        if segwit:
            #pretx_txid = hashlib.sha256(unsigned_pretx).digest()  # this should be segwit txid
            ptx = CTransaction.stream_deserialize(
                io.BytesIO(unsigned_pretx))  # could be a non-segwit tx anyways
            txid_ba = bytearray(ptx.GetTxid())
            txid_ba.reverse()
            pretx_txid = bytes(
                txid_ba)  # gonna leave the malleability problem to upstream
            logger.getChild('p2shdebug').debug('pretx_txid %s' % pretx_txid)
            print('pretx txid:', binascii.hexlify(pretx_txid))

        if unsigned_pretx:
            # we set a long lock on this, don't want other TXs to spend from it
            UTXO_P2SH_ENCODING_LOCKS[make_outkey_vin(unsigned_pretx, 0)] = True

        # only generate the data TX if we have the pretx txId
        if pretx_txid:
            source_input = None
            if script.is_p2sh(source):
                source_input = select_any_coin_from_source(source)
                if not source_input:
                    raise exceptions.TransactionError(
                        'Unable to select source input for p2sh source address'
                    )

            unsigned_datatx = serializer.serialise_p2sh_datatx(
                pretx_txid,
                source=source_address,
                source_input=source_input,
                destination_outputs=destination_outputs,
                data_output=data_output,
                pubkey=dust_return_pubkey,
                multisig_pubkeys=p2sh_source_multisig_pubkeys,
                multisig_pubkeys_required=p2sh_source_multisig_pubkeys_required
            )
            unsigned_datatx_hex = binascii.hexlify(unsigned_datatx).decode(
                'utf-8')

            # let the rest of the code work it's magic on the data tx
            unsigned_tx_hex = unsigned_datatx_hex
        else:
            # we're just gonna return the pretx, it doesn't require any of the further checks
            logger.warn('old_style_api = %s' % old_style_api)
            return return_result([unsigned_pretx_hex],
                                 old_style_api=old_style_api)

    else:
        # Serialise inputs and outputs.
        unsigned_tx = serializer.serialise(
            encoding,
            inputs,
            destination_outputs,
            data_output,
            change_output,
            dust_return_pubkey=dust_return_pubkey)
        unsigned_tx_hex = binascii.hexlify(unsigned_tx).decode('utf-8')
    '''Sanity Check'''

    # Desired transaction info.
    (desired_source, desired_destination_outputs, desired_data) = tx_info
    desired_source = script.make_canonical(desired_source)
    desired_destination = script.make_canonical(
        desired_destination_outputs[0]
        [0]) if desired_destination_outputs else ''
    # NOTE: Include change in destinations for BTC transactions.
    # if change_output and not desired_data and desired_destination != config.UNSPENDABLE:
    #    if desired_destination == '':
    #        desired_destination = desired_source
    #    else:
    #        desired_destination += '-{}'.format(desired_source)
    # NOTE
    if desired_data == None:
        desired_data = b''

    # Parsed transaction info.
    try:
        if pretx_txid and unsigned_pretx:
            backend.cache_pretx(pretx_txid, unsigned_pretx)
        parsed_source, parsed_destination, x, y, parsed_data, extra = blocks._get_tx_info(
            unsigned_tx_hex, p2sh_is_segwit=script.is_bech32(desired_source))

        if encoding == 'p2sh':
            # make_canonical can't determine the address, so we blindly change the desired to the parsed
            desired_source = parsed_source

        if pretx_txid and unsigned_pretx:
            backend.clear_pretx(pretx_txid)
    except exceptions.BTCOnlyError:
        # Skip BTC‐only transactions.
        if extended_tx_info:
            return {
                'btc_in': btc_in,
                'btc_out': destination_btc_out + data_btc_out,
                'btc_change': change_quantity,
                'btc_fee': final_fee,
                'tx_hex': unsigned_tx_hex,
            }
        logger.getChild('p2shdebug').debug('BTC-ONLY')
        return return_result([unsigned_pretx_hex, unsigned_tx_hex],
                             old_style_api=old_style_api)
    desired_source = script.make_canonical(desired_source)

    # Check desired info against parsed info.
    desired = (desired_source, desired_destination, desired_data)
    parsed = (parsed_source, parsed_destination, parsed_data)
    if desired != parsed:
        # Unlock (revert) UTXO locks
        if UTXO_LOCKS is not None and inputs:
            for input in inputs:
                UTXO_LOCKS[source].pop(make_outkey(input), None)

        raise exceptions.TransactionError(
            'Constructed transaction does not parse correctly: {} ≠ {}'.format(
                desired, parsed))

    if extended_tx_info:
        return {
            'btc_in': btc_in,
            'btc_out': destination_btc_out + data_btc_out,
            'btc_change': change_quantity,
            'btc_fee': final_fee,
            'tx_hex': unsigned_tx_hex,
        }
    return return_result([unsigned_pretx_hex, unsigned_tx_hex],
                         old_style_api=old_style_api)
コード例 #10
0
def test_p2sh_encoding_manual_multisig_transaction(server_db):
    source = P2SH_ADDR[0]
    destination = ADDR[1]

    with util_test.ConfigContext(
            OLD_STYLE_API=True), util_test.MockProtocolChangesContext(
                enhanced_sends=True, p2sh_encoding=True):
        p2sh_source_multisig_pubkeys_binary = [
            binascii.unhexlify(p) for p in [
                DP['pubkey'][ADDR[0]], DP['pubkey'][ADDR[1]], DP['pubkey'][
                    ADDR[2]]
            ]
        ]
        scriptSig, redeemScript, outputScript = p2sh_encoding.make_p2sh_encoding_redeemscript(
            b'deadbeef01',
            n=0,
            pubKey=None,
            multisig_pubkeys=p2sh_source_multisig_pubkeys_binary,
            multisig_pubkeys_required=2)
        redeemScript = bitcoinlib.core.script.CScript(redeemScript)
        assert repr(
            redeemScript
        ) == "CScript([OP_DROP, 2, x('{}'), x('{}'), x('{}'), 3, OP_CHECKMULTISIGVERIFY, 0, OP_DROP, OP_DEPTH, 0, OP_EQUAL])".format(
            DP['pubkey'][ADDR[0]], DP['pubkey'][ADDR[1]],
            DP['pubkey'][ADDR[2]])

        # setup transaction
        fee = 20000
        fee_per_kb = 50000
        pretxhex = api.compose_transaction(
            server_db,
            'send', {
                'source': source,
                'destination': destination,
                'asset': 'XCP',
                'quantity': 100,
            },
            p2sh_source_multisig_pubkeys=[
                DP['pubkey'][ADDR[0]], DP['pubkey'][ADDR[1]],
                DP['pubkey'][ADDR[2]]
            ],
            p2sh_source_multisig_pubkeys_required=2,
            encoding='p2sh',
            fee_per_kb=fee_per_kb,
            fee=fee)
        # debugTransaction = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(pretxhex))

        # store transaction
        pretxid, _ = util_test.insert_raw_transaction(pretxhex, server_db)
        logger.debug('pretxid %s' % (pretxid))

        # now compose the data transaction
        result = api.compose_transaction(
            server_db,
            'send',
            {
                'source': source,
                'destination': destination,
                'asset': 'XCP',
                'quantity': 100
            },
            p2sh_source_multisig_pubkeys=[
                DP['pubkey'][ADDR[0]], DP['pubkey'][ADDR[1]],
                DP['pubkey'][ADDR[2]]
            ],
            p2sh_source_multisig_pubkeys_required=2,
            p2sh_pretx_txid=pretxid,  # pass the pretxid
            encoding='p2sh',
            fee_per_kb=fee_per_kb)
        assert not isinstance(result, list)
        datatxhex = result

        datatx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(datatxhex))

        # parse the transaction
        parsed_source, parsed_destination, parsed_btc_amount, parsed_fee, parsed_data, extra = blocks._get_tx_info(
            datatxhex)
        assert parsed_source == source
        assert parsed_data == binascii.unhexlify(
            "00000002"
            "0000000000000001"
            "0000000000000064"
            "6f8d6ae8a3b381663118b4e1eff4cfc7d0954dd6ec"
        )  # ID=enhanced_send(0x02) ASSET=XCP(0x01) VALUE=100(0x64) destination_pubkey(0x6f8d...d6ec)
        assert parsed_btc_amount == 0
コード例 #11
0
def test_p2sh_encoding(server_db):
    source = ADDR[0]
    destination = ADDR[1]

    with util_test.ConfigContext(
            OLD_STYLE_API=True), util_test.MockProtocolChangesContext(
                enhanced_sends=True, p2sh_encoding=True):
        utxos = dict(((utxo['txid'], utxo['vout']), utxo)
                     for utxo in backend.get_unspent_txouts(source))

        # pprint.pprint(utxos)

        fee = 20000
        fee_per_kb = 50000
        result = api.compose_transaction(server_db,
                                         'send', {
                                             'source': source,
                                             'destination': destination,
                                             'asset': 'XCP',
                                             'quantity': 100
                                         },
                                         encoding='p2sh',
                                         fee_per_kb=fee_per_kb,
                                         fee=fee)
        assert not isinstance(result, list)
        pretxhex = result

        pretx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(pretxhex))

        sumvin = sum([
            int(utxos[(bitcoinlib.core.b2lx(
                vin.prevout.hash), vin.prevout.n)]['amount'] * 1e8)
            for vin in pretx.vin
        ])
        sumvout = sum([vout.nValue for vout in pretx.vout])

        assert len(pretx.vout) == 2
        assert len(pretxhex) / 2 == 142
        assert sumvin == 199909140
        assert sumvout < sumvin
        assert sumvout == (sumvin - fee)

        # data P2SH output
        expected_datatx_length = 435
        expected_datatx_fee = int(expected_datatx_length / 1000 * fee_per_kb)
        assert repr(
            pretx.vout[0].scriptPubKey
        ) == "CScript([OP_HASH160, x('7698101f9b9e5cdf0a0e11c2972dbc4860f374bf'), OP_EQUAL])"
        assert pretx.vout[0].nValue == expected_datatx_fee
        # change output
        assert pretx.vout[1].nValue == sumvin - expected_datatx_fee - fee

        assert pretxhex == "0100000001c1d8c075936c3495f6d653c50f73d987f75448d97a750249b1eb83bee71b24ae000000001976a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788acffffffff02f65400000000000017a9147698101f9b9e5cdf0a0e11c2972dbc4860f374bf87febbe90b000000001976a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac00000000"
        # 01000000                                                          | version
        # 01                                                                | inputs
        # c1d8c075936c3495f6d653c50f73d987f75448d97a750249b1eb83bee71b24ae  | txout hash
        # 00000000                                                          | txout index
        # 19                                                                | script length
        # 76a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac                | tx_script
        # ffffffff                                                          | Sequence
        # 02                                                                | number of outputs
        # f654000000000000                                                  | output 1 value (21750)
        # 17                                                                | output 1 length (23 bytes)
        # a9147698101f9b9e5cdf0a0e11c2972dbc4860f374bf87                    | output 1 script
        # febbe90b00000000                                                  | output 2 value (199867390)
        # 19                                                                | output 2 length (25 bytes)
        # 76a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac                | output 2 script
        # 00000000                                                          | locktime

        # first transaction should be considered BTC only
        with pytest.raises(exceptions.BTCOnlyError):
            blocks._get_tx_info(pretxhex)

        # store transaction
        pretxid, _ = util_test.insert_raw_transaction(pretxhex, server_db)

        logger.debug('pretxid %s' % (pretxid))

        # check that when we do another, unrelated, send that it won't use our UTXO
        result = api.compose_transaction(
            server_db, 'send', {
                'source': source,
                'destination': destination,
                'asset': 'XCP',
                'quantity': 100
            })
        othertx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(result))
        othertxid = bitcoinlib.core.lx(
            bitcoinlib.core.b2x(othertx.vin[0].prevout.hash))  # reverse hash
        assert not (binascii.hexlify(othertxid).decode('ascii') == pretxid
                    and othertx.vin[0].prevout.n == 0)

        # now compose the data transaction
        result = api.compose_transaction(
            server_db,
            'send',
            {
                'source': source,
                'destination': destination,
                'asset': 'XCP',
                'quantity': 100
            },
            p2sh_pretx_txid=pretxid,  # pass the pretxid
            encoding='p2sh',
            fee_per_kb=fee_per_kb)
        assert not isinstance(result, list)
        datatxhex = result

        datatx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(datatxhex))
        sumvin = sum(
            [pretx.vout[n].nValue for n, vin in enumerate(datatx.vin)])
        sumvout = sum([vout.nValue for vout in datatx.vout])
        fee = 10000

        assert len(datatxhex) / 2 == 190
        assert sumvin == expected_datatx_fee
        assert sumvout < sumvin
        assert sumvout == sumvin - expected_datatx_fee
        assert len(datatx.vout) == 1
        # opreturn signalling P2SH
        assert repr(
            datatx.vout[0].scriptPubKey
        ) == "CScript([OP_RETURN, x('8a5dda15fb6f0562da344d2f')])"  # arc4(PREFIX + 'P2SH')
        assert datatx.vout[0].nValue == 0

        assert datatxhex == "01000000010a0746fe9308ac6e753fb85780a8b788b40655148dcde1435f2048783b784f06000000007431544553545858585800000002000000000000000100000000000000646f8d6ae8a3b381663118b4e1eff4cfc7d0954dd6ec2975210282b886c087eb37dc8182f14ba6cc3e9485ed618b95804d44aecc17c300b585b0ad007574008717a9147698101f9b9e5cdf0a0e11c2972dbc4860f374bf87ffffffff0100000000000000000e6a0c8a5dda15fb6f0562da344d2f00000000"
        # 01000000                                                                                    | version
        # 01                                                                                          | inputs
        # 0a0746fe9308ac6e753fb85780a8b788b40655148dcde1435f2048783b784f06                            | txout hash
        # 00000000                                                                                    | txout index (0)
        # 74                                                                                          | script length (116)
        # 31544553545858585800000002000000000000000100000000000000                                    | tx_script
        #         646f8d6ae8a3b381663118b4e1eff4cfc7d0954dd6ec2975210282b886c087eb37dc8182f14ba6cc    |   ...
        #         3e9485ed618b95804d44aecc17c300b585b0ad007574008717a9147698101f9b9e5cdf0a0e11c297    |   ...
        #         2dbc4860f374bf87                                                                    |   ...
        # ffffffff                                                                                    | Sequence
        # 01                                                                                          | number of outputs
        # 0000000000000000                                                                            | output 1 value (0)
        # 0e                                                                                          | output 1 length (14 bytes)
        # 6a0c8a5dda15fb6f0562da344d2f                                                                | output 1 script
        # 00000000                                                                                    | locktime

        # verify parsed result
        parsed_source, parsed_destination, parsed_btc_amount, parsed_fee, parsed_data, extra = blocks._get_tx_info(
            datatxhex)
        assert parsed_source == source
        assert parsed_data == binascii.unhexlify(
            "00000002"
            "0000000000000001"
            "0000000000000064"
            "6f8d6ae8a3b381663118b4e1eff4cfc7d0954dd6ec"
        )  # ID=enhanced_send(0x02) ASSET=XCP(0x01) VALUE=100(0x64) destination_pubkey(0x6f8d...d6ec)
        assert parsed_btc_amount == 0
        assert parsed_fee == expected_datatx_fee

        # check signing pubkey
        tx_script_start = 8 + 2 + 64 + 8
        tx_script_length = int(datatxhex[tx_script_start:tx_script_start + 2],
                               16) * 2
        tx_script = datatxhex[tx_script_start + 2:tx_script_start + 2 +
                              tx_script_length]
        signing_pubkey_hash = tx_script[-44:-4]
        address = script.base58_check_encode(signing_pubkey_hash,
                                             config.ADDRESSVERSION)
コード例 #12
0
def test_p2sh_encoding_long_data(server_db):
    source = ADDR[0]
    destination = ADDR[1]

    with util_test.ConfigContext(
            OLD_STYLE_API=True), util_test.MockProtocolChangesContext(
                enhanced_sends=True, p2sh_encoding=True):
        utxos = dict(((utxo['txid'], utxo['vout']), utxo)
                     for utxo in backend.get_unspent_txouts(source))

        # pprint.pprint(utxos)

        fee_per_kb = 50000
        result = api.compose_transaction(
            server_db,
            'broadcast', {
                'source': source,
                'text': 'The quick brown fox jumped over the lazy dog. ' * 12,
                'fee_fraction': 0,
                'timestamp': 1512155862,
                'value': 0,
            },
            encoding='p2sh',
            fee_per_kb=fee_per_kb)
        assert not isinstance(result, list)
        pretxhex = result

        pretx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(pretxhex))
        actual_fee = int(len(pretxhex) / 2 * fee_per_kb / 1000)

        sumvin = sum([
            int(utxos[(bitcoinlib.core.b2lx(
                vin.prevout.hash), vin.prevout.n)]['amount'] * 1e8)
            for vin in pretx.vin
        ])
        sumvout = sum([vout.nValue for vout in pretx.vout])

        pretx_fee = 12950

        assert len(pretx.vout) == 3
        assert len(pretxhex) / 2 == 174
        assert sumvin == 199909140
        assert sumvout < sumvin
        assert sumvout == (sumvin - pretx_fee)

        # data P2SH output
        expected_datatx_length = 1156
        expected_datatx_fee = int(expected_datatx_length / 1000 * fee_per_kb)
        expected_datatx_fee_rounded = int(math.ceil(
            expected_datatx_fee / 2)) * 2
        assert repr(
            pretx.vout[0].scriptPubKey
        ) == "CScript([OP_HASH160, x('7698101f9b9e5cdf0a0e11c2972dbc4860f374bf'), OP_EQUAL])"
        assert pretx.vout[0].nValue == int(math.ceil(expected_datatx_fee / 2))
        assert pretx.vout[1].nValue == int(math.ceil(expected_datatx_fee / 2))
        # change output
        assert pretx.vout[
            2].nValue == sumvin - expected_datatx_fee_rounded - pretx_fee

        assert pretxhex == "0100000001c1d8c075936c3495f6d653c50f73d987f75448d97a750249b1eb83bee71b24ae000000001976a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788acffffffff03e47000000000000017a9147698101f9b9e5cdf0a0e11c2972dbc4860f374bf87e47000000000000017a914676d587edf25cf01d3b153ff0b71f5e9b622386387b64ae90b000000001976a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac00000000"
        # 00000001                                                         | version
        # 01                                                               | inputs
        # c1d8c075936c3495f6d653c50f73d987f75448d97a750249b1eb83bee71b24ae | txout hash
        # 00000000                                                         | txout index
        # 19                                                               | script length
        # 76a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac               | tx_script
        # ffffffff                                                         | Sequence
        # 03                                                               | number of outputs (3)
        # e470000000000000                                                 | output 1 value (28900)
        # 17                                                               | output 1 length (23 bytes)
        # a9147698101f9b9e5cdf0a0e11c2972dbc4860f374bf87                   | output 1 script
        # e470000000000000                                                 | output 2 value (28900)
        # 17                                                               | output 2 length (23 bytes)
        # a914676d587edf25cf01d3b153ff0b71f5e9b622386387                   | output 2 script
        # b64ae90b00000000                                                 | output 3 value (199838390)
        # 19                                                               | output 3 length (25 bytes)
        # 76a9144838d8b3588c4c7ba7c1d06f866e9b3739c6303788ac               | output 3 script
        # 00000000                                                         | locktime

        # store transaction
        pretxid, _ = util_test.insert_raw_transaction(pretxhex, server_db)
        logger.debug('pretxid %s' % (pretxid))

        # now compose the data transaction
        result = api.compose_transaction(
            server_db,
            'broadcast',
            {
                'source': source,
                'text': 'The quick brown fox jumped over the lazy dog. ' * 12,
                'fee_fraction': 0,
                'timestamp': 1512155862,
                'value': 0,
            },
            p2sh_pretx_txid=pretxid,  # pass the pretxid
            encoding='p2sh',
            fee_per_kb=fee_per_kb)
        assert not isinstance(result, list)
        datatxhex = result

        datatx = bitcoinlib.core.CTransaction.deserialize(
            binascii.unhexlify(datatxhex))
        sumvin = sum(
            [pretx.vout[n].nValue for n, vin in enumerate(datatx.vin)])
        sumvout = sum([vout.nValue for vout in datatx.vout])
        assert len(datatx.vin) == 2

        assert len(datatxhex) / 2 == 1682 / 2
        assert sumvin == expected_datatx_fee_rounded
        assert sumvout < sumvin
        assert sumvout == sumvin - expected_datatx_fee_rounded
        assert len(datatx.vout) == 1
        # opreturn signalling P2SH
        assert repr(
            datatx.vout[0].scriptPubKey
        ) == "CScript([OP_RETURN, x('8a5dda15fb6f0562da344d2f')])"  # arc4(PREFIX + 'P2SH')
        assert datatx.vout[0].nValue == 0
        assert datatxhex == "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"
        # 01000000                                                                                              | version
        # 02                                                                                                    | inputs
        # f33f677de4180f1b0c261a991974c57de97f082a7e62332b77ec5d193d13d1a3                                      | txout hash
        # 00000000                                                                                              | txout index (0)
        # fd                                                                                                    | script length (253)
        # 4d024d080254455354585858580000001e5a21aad6000000000000000000000000                                    | tx_script
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e20      |   ...
        #     54686520717569636b2062726f776e20666f78206a756d706564206f766572202975210282b886c087eb37dc8182      |   ...
        #     f14ba6cc3e9485ed618b95804d44aecc17c300b585b0ad007574008717a9147698101f9b9e5cdf0a0e11c2972dbc      |   ...
        #     4860f374bf87                                                                                      |   ...
        # ffffffff                                                                                              | Sequence
        # f33f677de4180f1b0c261a991974c57de97f082a7e62332b77ec5d193d13d1a3                                      | txout hash
        # 01000000                                                                                              | txout index (1)
        # 87                                                                                                    | script length (135)
        # 445445535458585858746865206c617a7920646f672e20                                                        | tx_script
        #     54686520717569636b2062726f776e20666f78206a756d706564206f76657220746865206c617a7920646f672e202975  |   ...
        #     210282b886c087eb37dc8182f14ba6cc3e9485ed618b95804d44aecc17c300b585b0ad517574008717a914676d587edf  |   ...
        #     25cf01d3b153ff0b71f5e9b622386387                                                                  |   ...
        # ffffffff                                                                                              | Sequence
        # 01                                                                                                    | number of outputs
        # 0000000000000000                                                                                      | output 1 value (0)
        # 0e                                                                                                    | output 1 length (14 bytes)
        # 6a0c8a5dda15fb6f0562da344d2f                                                                          | output 1 script
        # 00000000                                                                                              | locktime

        # verify parsed result
        parsed_source, parsed_destination, parsed_btc_amount, parsed_fee, parsed_data, extra = blocks._get_tx_info(
            datatxhex)
        assert parsed_source == source

        assert parsed_data == binascii.unhexlify(
            "0000001e5a21aad6000000000000000000000000"
        ) + b'The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. The quick brown fox jumped over the lazy dog. '  # ID=enhanced_send(0x1e) ASSET=XCP(0x01) VALUE=100(0x64) destination_pubkey(0x6f8d...d6ec)
        assert parsed_btc_amount == 0
        assert parsed_fee == expected_datatx_fee_rounded
コード例 #13
0
def test_p2sh_encoding_composed(server_db):
    source = ADDR[0]
    destination = ADDR[1]

    with util_test.ConfigContext(
            DISABLE_ARC4_MOCKING=True,
            OLD_STYLE_API=True), util_test.MockProtocolChangesContext(
                enhanced_sends=True, p2sh_encoding=True):
        # BTC Mainnet tx d90dc8637fd2ab9ae39b7c2929c793c5d28d7dea672afb02fb4001637085e9a1
        datatxhex = "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"
        config.PREFIX = b'CNTRPRTY'
        parsed_source, parsed_destination, parsed_btc_amount, parsed_fee, parsed_data, extra = blocks._get_tx_info(
            datatxhex)
        print('!!!!!!!!!!!!!!!!>1')
        print(parsed_source)
        print(parsed_destination)
        print(parsed_btc_amount)
        print(parsed_fee)
        print(parsed_data)
        print(extra)
        print('!!!!!!!!!!!!!!!!<1')