Ejemplo n.º 1
0
    def __send(self, address, encrypted, sequence_number):
        '''
        Sends the encrypted blocks to the recipient as sequential
        payment transactions.

        Args:
            address: The Stellar address of the recipient.
            encrypted: The encrypted message blocks.
            sequence_number: The current sequence number of the
                             sending account.

        Returns:
            True if successful, False otherwise.
        '''
        try:
            for i in range(0, len(encrypted)):
                sequence = str(sequence_number + i)
                builder = Builder(secret = self.__seed, sequence = sequence)
                builder.append_payment_op(address, '0.0000001', 'XLM')
                builder.add_hash_memo(encrypted[i])
                builder.sign()
                builder.submit()
        except:
            return False

        # todo: check sending status
        return True
Ejemplo n.º 2
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    def test_builder(self):
        cold_account = self.cold.address().decode()
        hot_account = self.hot.address().decode()
        fund(cold_account)

        cold = Builder(self.cold.seed().decode()) \
            .append_create_account_op(hot_account, 200) \
            .append_set_options_op(inflation_dest=cold_account, set_flags=1,
                                   home_domain='256kw.com', master_weight=10,
                                   low_threshold=5, ) \
            .append_trust_op(cold_account, 'BEER', 1000, source=hot_account) \
            .append_allow_trust_op(hot_account, 'BEER', True)
        # append twice for test
        cold.append_payment_op(hot_account, 50.123, 'BEER', cold_account) \
            .append_payment_op(hot_account, 50.123, 'BEER', cold_account)

        cold.sign(self.hot.seed().decode())
        try:  # sign twice
            cold.sign(self.hot.seed().decode())
        except SignatureExistError:
            assert True
        except:
            assert False

        cold.sign()
        assert len(cold.te.signatures) == 2
        assert len(cold.ops) == 5

        try:
            response = cold.submit()
            print(response)
        except:
            assert False
Ejemplo n.º 3
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def trust_asset(text):
    if CONF['private_key'] == '':
        print(
            'no private key setup  - use set to set key or c to create wallet')
        return
    val = text.split(' ')
    if len(val) != 3:
        print('invalid syntax please use trust anchor asset')
        return
    url = 'https://raw.githubusercontent.com/stellarterm/stellarterm/master/directory/directory.json'
    r = requests.get(url)
    b = json.loads(r.text)
    asset_name = val[-1].upper()
    asset_anchor = val[1]
    try:
        asset_key = b['anchors'][asset_anchor]['assets'][asset_name].split(
            '-')[1]
    except:
        print('unabled to find anchor or asset so quiting trust')
        return
    trst = Builder(CONF['private_key'], network=CONF['network'])
    if val[0] == 'trust':
        print('trusting.. ' + asset_name + ' ' + asset_key)
        trst.append_trust_op(asset_key, asset_name)
    else:
        print('untrust ' + asset_name + ' ' + asset_key +
              ' please ensure your balance is 0 before this operation')
        trst.append_trust_op(asset_key, asset_name, limit=0)
    trst.sign()
    trst.submit()
Ejemplo n.º 4
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def build_unsigned_change_trust(source_address: str,
                                transaction_source_address: str,
                                sequence: str = None) -> Tuple[str, str]:
    """"Build unsigned transfer transaction return unsigned XDR and transaction hash.

        Args:
            source_address: address need to be trust HOT
    """
    builder = Builder(
        address=transaction_source_address,
        horizon=settings['HORIZON_URL'],
        network=settings['PASSPHRASE'],
        sequence=sequence,
    )
    builder.append_trust_op(settings['ISSUER'],
                            settings['ASSET_CODE'],
                            source=source_address,
                            limit=settings['LIMIT_ASSET'])

    try:
        unsigned_xdr = builder.gen_xdr()
        tx_hash = builder.te.hash_meta()
    except Exception as ex:
        raise web.HTTPNotFound(text=str(ex))

    return unsigned_xdr.decode('utf8'), binascii.hexlify(tx_hash).decode()
Ejemplo n.º 5
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    def test_network_and_horizon(self, setup, test_data):
        builder = Builder(secret=test_data.cold_secret,
                          sequence=100,
                          network='MOE')
        assert builder.network == 'MOE'
        assert builder.horizon.horizon_uri == horizon_testnet().horizon_uri

        builder = Builder(secret=test_data.cold_secret,
                          sequence=100,
                          network='testnet')
        assert builder.network == 'TESTNET'
        assert builder.horizon.horizon_uri == horizon_testnet().horizon_uri

        builder = Builder(secret=test_data.cold_secret,
                          sequence=100,
                          network='public')
        assert builder.network == 'PUBLIC'
        assert builder.horizon.horizon_uri == horizon_livenet().horizon_uri

        builder = Builder(secret=test_data.cold_secret,
                          sequence=100,
                          network='public',
                          horizon_uri=setup.horizon_endpoint_uri)
        assert builder.network == 'PUBLIC'
        assert builder.horizon.horizon_uri == Horizon(
            horizon_uri=setup.horizon_endpoint_uri).horizon_uri
Ejemplo n.º 6
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 def __init__(self, account):
     self.account = account
     if account.secret:
         self.builder = Builder(secret=account.secret,
                                network=account.network)
     self.address = Address(address=account.account_id,
                            network=account.network)
Ejemplo n.º 7
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    def test_verify_challenge_tx(self):
        server_kp = Keypair.random()
        client_kp = Keypair.random()
        timeout = 600
        network = 'Public Global Stellar Network ; September 2015'
        archor_name = "SDF"

        challenge = Builder.challenge_tx(
            server_secret=server_kp.seed().decode(),
            client_account_id=client_kp.address().decode(),
            archor_name=archor_name,
            network=network,
            timeout=timeout)
        challenge.sign()
        challenge_tx_server_signed = challenge.gen_xdr()

        transaction = Builder(
            client_kp.seed().decode(),
            network='Public Global Stellar Network ; September 2015',
            sequence=0,
            fee=100)
        transaction.import_from_xdr(challenge_tx_server_signed)
        transaction.sign()
        challenge_tx = transaction.gen_xdr()
        Builder.verify_challenge_tx(
            challenge_tx,
            server_kp.address().decode(),
            'Public Global Stellar Network ; September 2015')
Ejemplo n.º 8
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def set_account(settype, var1):
    print('set account')
    sa = Builder(CONF['private_key'], network=CONF['network'])
    if settype == 'inflation':
        sa.append_set_options_op(inflation=var1)
    else:
        sa.append_set_options_op(home_domain=var1)
    sa.sign()
    sa.submit()
Ejemplo n.º 9
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def create_transaction(sender_seed, recipient_key, hash_value):
    builder = Builder(secret=sender_seed)
    builder.append_payment_op(recipient_key, "1", "XLM")
    builder.add_hash_memo(hash_value.encode())
    builder.sign()
    # TODO: handle possible errors
    return builder.submit()
Ejemplo n.º 10
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def trust_asset(issuingkeys, receivingkeys, assetcode):
    builder = Builder(secret=issuingkeys.seed().decode(), network='TESTNET')
    builder.append_trust_op(destination=issuingkeys.address(
    ).decode(), code=assetcode, source=receivingkeys.address().decode())
    builder.sign(secret=issuingkeys.seed().decode())
    builder.sign(secret=receivingkeys.seed().decode())
    return builder.submit()
Ejemplo n.º 11
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def submit_operations(account_seed, operations, transaction_memo):
    """
    This method signs the given operations and submits them to the Stellar network
    :param str account_seed: Seed of the account submitting the operations. It is required to sign the transactions.
    :param Operation operations: Operations to be submitted.
    :param str transaction_memo: Text memo to be included in Stellar transaction. Maximum size of 28 bytes.
    :return: Returns a string containing the server response or None if the transaction could not be submitted.
    :rtype: str or None
    """
    try:
        builder = Builder(secret=account_seed)
    except Exception:
        # Too broad exception because no specific exception is being thrown by the stellar_base package.
        # TODO: This should be fixed in future versions
        print("An error occurred (Please check your Internet connection)")
        return None

    builder.add_text_memo(transaction_memo)
    for operation in operations:
        builder.append_op(operation)
    builder.sign()
    try:
        return builder.submit()
    except Exception:
        # Too broad exception because no specific exception is being thrown by the stellar_base package.
        # TODO: This should be fixed in future versions
        print("An error occurred (Please check your Internet connection)")
        return None
 def send(self):
     """Text Memo needs to be added."""
     if self.check_account_validity:
         self.builder = Builder(
             secret=self.sender,
             horizon='https://horizon-testnet.stellar.org')
         self.builder.append_payment_op(self.receiver, self.amount)
         self.builder.sign()
         self.builder.submit()
         return True
     return False
Ejemplo n.º 13
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def send_payment(request,amount,currency,sender,account):
    builder = Builder(secret=sender)
    builder.append_payment_op(account,amount,currency)
    builder.add_text_memo("first payment")
    builder.sign()
    s = builder.submit()
    print(s['_links'])
    return HttpResponse("send successfully plz check user transaction here")
Ejemplo n.º 14
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 def test_next_builder(self, setup, test_data):
     builder = Builder(secret=test_data.cold_secret, sequence=1, horizon_uri=setup.horizon_endpoint_uri,
                       network=setup.network) \
         .append_manage_data_op("hello", "world")
     builder.sign()
     next_builder = builder.next_builder()
     assert next_builder.keypair == builder.keypair
     assert next_builder.horizon.horizon_uri == builder.horizon.horizon_uri
     assert next_builder.address == builder.address
     assert next_builder.network == builder.network
     assert next_builder.fee == builder.fee
     assert next_builder.sequence == builder.sequence + 1
Ejemplo n.º 15
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 def test_federation_payment_not_found_raise(self, setup):
     builder_fed = Builder(
         address='GBTCBCWLE6YVTR5Y5RRZC36Z37OH22G773HECWEIZTZJSN4WTG3CSOES',
         sequence=100)
     with pytest.raises(
             FederationError,
             match=
             'Cannot determine Stellar Address to Account ID translation via Federation server.'
     ):
         builder_fed.federation_payment(fed_address="bad*fed-domain.com",
                                        amount="100.5",
                                        asset_code="XLM")
Ejemplo n.º 16
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def build_generate_trust_wallet_transaction(
        transaction_source_address: str,
        source_address: str,
        destination_address: str,
        xlm_amount: Decimal,
        hot_amount: Decimal = Decimal(0),
        sequence=None,
) -> Tuple[bytes, bytes]:
    """"Build transaction return unsigned XDR and transaction hash.

        Args:
            transaction_source_address: Owner of a transaction.
            source_address: Owner of creator address and payment operations.
            destination_address: wallet id of new wallet.
            xlm_amount: starting xlm_balance of new wallet.
            hot_amount: starting hot balance of new wallet.
    """
    builder = Builder(
        address=transaction_source_address,
        horizon=settings['HORIZON_URL'],
        network=settings['PASSPHRASE'],
        sequence=sequence,
    )
    builder.append_create_account_op(source=source_address,
                                     destination=destination_address,
                                     starting_balance=xlm_amount)
    try:
        builder.append_trust_op(
            source=destination_address,
            destination=settings['ISSUER'],
            code=settings['ASSET_CODE'],
            limit=settings['LIMIT_ASSET'],
        )
    except DecodeError:
        raise web.HTTPBadRequest(reason='Parameter values are not valid.')
    except Exception as e:
        msg = str(e)
        raise web.HTTPInternalServerError(reason=msg)

    if hot_amount > 0:
        builder.append_payment_op(
            source=source_address,
            destination=destination_address,
            asset_code=settings['ASSET_CODE'],
            asset_issuer=settings['ISSUER'],
            amount=hot_amount,
        )

    try:
        unsigned_xdr = builder.gen_xdr()
    except Exception as e:
        raise web.HTTPBadRequest(
            reason='Bad request, Please ensure parameters are valid.')

    tx_hash = builder.te.hash_meta()

    return unsigned_xdr, tx_hash
async def build_payment_operation(builder: Builder, source: str, parties_wallet: List):

    for wallet in parties_wallet:
        destination = wallet['address']
        amount = Decimal(wallet['amount'])
        if amount > 0:
            builder.append_payment_op(
                destination=destination,
                amount=amount,
                asset_code=settings['ASSET_CODE'],
                asset_issuer=settings['ISSUER'],
                source=source,
            )
Ejemplo n.º 18
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def transfer_lumen(sender, to_address, amount, memo=None):
    # type: (User, str, float, Optional[str]) -> None

    # ToDo: check remaining lumen of sending account (fee + base reserve)
    # (take base reserve https://www.stellar.org/developers/guides/concepts/fees.html)

    builder = Builder(secret=sender.stellaraccount.seed, network=network)
    builder.append_payment_op(to_address, str(amount), 'XLM')
    if memo:
        builder.add_text_memo(memo)  # string length <= 28 bytes

    builder.sign()
    builder.submit()
    def tx(self, account, cosigner_keypair, weight):

        builder = Builder(address=account.get_info()['account_id'])

        builder.append_set_options_op(
            high_threshold=10,
            low_threshold=1,
            master_weight=10,
            med_threshold=1,
            signer_weight=weight,
            signer_address=cosigner_keypair.address().decode(),
            signer_type='ed25519PublicKey')

        return builder.gen_te()
Ejemplo n.º 20
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    def test_add_memo(self, test_data):
        builder = Builder(test_data.cold_secret, sequence=1, fee=100)

        builder.add_text_memo("hello")
        assert builder.memo == memo.TextMemo("hello")

        builder.add_id_memo(123123)
        assert builder.memo == memo.IdMemo(123123)

        hash = b"\x95\xe5\xbb\x95\x15\xd9\x9f\x82\x9d\xf9\x93\xc3'\x8e\xeb\xf1\nj!\xda\xa4\xa1\xe4\xf2<6cG}\x17\x97\xfe"
        builder.add_hash_memo(hash)
        assert builder.memo == memo.HashMemo(hash)
        builder.add_ret_hash_memo(hash)
        assert builder.memo == memo.RetHashMemo(hash)
Ejemplo n.º 21
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 def _add_signer(builder: Builder, deal_address: str, party: str,
                 amount: Decimal):
     """Set permission of parties can signed transaction that generate from joint account"""
     builder.append_set_options_op(source=deal_address,
                                   signer_address=party,
                                   signer_type='ed25519PublicKey',
                                   signer_weight=1)
     builder.append_payment_op(
         source=party,
         destination=deal_address,
         asset_code=settings['ASSET_CODE'],
         asset_issuer=settings['ISSUER'],
         amount=amount,
     )
Ejemplo n.º 22
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 def trust_asset(setup, secret_key, memo_text=None):
     """A helper to establish a trustline"""
     builder = Builder(secret=secret_key,
                       horizon_uri=setup.horizon_endpoint_uri,
                       network=setup.network)
     builder.append_trust_op(setup.test_asset.issuer, setup.test_asset.code)
     if memo_text:
         builder.add_text_memo(memo_text[:28])  # max memo length is 28
     builder.sign()
     reply = builder.submit()
     return reply.get('hash')
Ejemplo n.º 23
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def payment():
    min_time = int(time.time()) - 10
    max_time = min_time + 100
    time_bounds = {'minTime': min_time, 'maxTime': max_time}
    builder = Builder(dav_seed).add_time_bounds(time_bounds=time_bounds) \
        .append_payment_op(destination=eve_address, amount='100', asset_code='XLM', asset_issuer=None)
    builder.sign()  # signed by dav with default seed
    builder.sign(alice_seed)  # signed by alice
    builder.sign(bob_seed)  # signed by bob
    resp = builder.submit()
    return resp
Ejemplo n.º 24
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 def send_asset(cls, setup, secret_key, address, amount, memo_text=None):
     """A helper to send asset"""
     builder = Builder(secret=secret_key,
                       horizon_uri=setup.horizon_endpoint_uri,
                       network=setup.network)
     builder.append_payment_op(address, amount, setup.test_asset.code,
                               setup.test_asset.issuer)
     if memo_text:
         builder.add_text_memo(memo_text[:28])  # max memo length is 28
     builder.sign()
     reply = builder.submit()
     return reply.get('hash')
Ejemplo n.º 25
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 def create_signed_tx(private_key,
                      to_address,
                      amount,
                      network='PUBLIC',
                      memo=None):
     amount = round(amount, 7)
     builder = Builder(secret=private_key, network=network)
     builder.append_payment_op(to_address, amount, 'XLM')
     if memo:
         builder.add_text_memo(memo)
     builder.sign()
     return builder.gen_xdr().decode()
Ejemplo n.º 26
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    def transfer(self, amount, to_address, description):
        '''

        '''
        if float(self._get_balance()) < float(amount):
            return 'Insufficient Balance'
        seed = self.get_seed()
        builder = Builder(secret=seed)
        # builder = Builder(secret=seed, network='public') for LIVENET
        builder.append_payment_op(to_address, amount, 'XLM')
        builder.add_text_memo(description)  # string length <= 28 bytes
        builder.sign()

        # Uses an internal horizon instance to submit over the network
        builder.submit()
        return 'SUCCESS'
Ejemplo n.º 27
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    def award_degree(self, address, student_name, birthdate, year):
        """Sends a transaction with a hash of the student's informations as text memo.

        :param student_name: in format prenamesurname with only one prename
        :param year: 4-digits number
        :return: Horizon return of the tx
        """
        memo = hash128((student_name+birthdate+year).encode())
        builder = Builder(secret=self.kp.seed().decode())
        builder.add_text_memo(memo)
        builder.append_payment_op(address, 0.0000001)
        builder.sign()
        return builder.submit()
async def build_generate_merge_transaction(
    transaction_source_address: str, wallet_detail: Dict, parties_wallet: List = None, sequence: str = None
) -> Tuple[Any, str]:
    """ Builder transaction close escrow wallet by payment remaining HOT from escrow_wallet to provider_wallet and
        merge account from escrow_wallet to creator_wallet, Finally, return xdr and transaction_hash

    Args:
        escrow_wallet: escrow wallet response from get_escrow_wallet_detail
        parties_walles : list of provider address and amount for payback
    """

    wallet_address = wallet_detail['escrow_address']
    wallet_data = wallet_detail['data']
    creator_address = (
        wallet_data['creator_address']
        if wallet_data and 'creator_address' in wallet_data.keys()
        else await get_creator_address(wallet_address)
    )

    builder = Builder(
        address=transaction_source_address,
        horizon=settings['HORIZON_URL'],
        network=settings['PASSPHRASE'],
        sequence=sequence,
    )

    if not parties_wallet:
        parties_wallet = await generate_parties_wallet(wallet_detail)

    balance = Decimal(wallet_detail['asset'][settings['ASSET_CODE']])
    if not await is_match_balance(parties_wallet, balance):
        raise web.HTTPBadRequest(reason='Total amount not match wallet balance')

    await build_payment_operation(builder, wallet_address, parties_wallet)
    await build_remove_trustlines_operation(builder, wallet_address)
    await build_remove_manage_data_operation(builder, wallet_address, wallet_data.keys())
    await build_account_merge_operation(builder, wallet_address, creator_address)

    try:
        xdr = builder.gen_xdr()
    except Exception as e:
        raise web.HTTPBadRequest(reason='Bad request, Please ensure parameters are valid.')

    tx_hash = builder.te.hash_meta()

    return xdr.decode(), binascii.hexlify(tx_hash).decode()
Ejemplo n.º 29
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def lock(systemdb, Account):
	q = Query()
	a_sk = systemdb.search(q.name == Account)[0]['sk']
	b = Builder(secret = a_sk, network='TESTNET')

	b.append_set_options_op(master_weight=0, low_threshold=1, med_threshold=1, high_threshold=1)

	b.sign()

	print b.submit()
Ejemplo n.º 30
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def burn_tokens(address):
    """
    Burn the recent payments to the address for the percent specified in the BURN_RATE constant
    :param address: address to burn the tokens on
    :return: response object
    """
    # get recent payments
    address_obj = Address(address=address)
    payments = address_obj.payments()
    asset_sum = 0
    for payment in payments:
        asset_sum += payment

    burn_sum = asset_sum * BURN_RATE

    # send the BURN % of tokens to the issuer ultimately taking them out of circulation
    builder = Builder(secret=REAL_SEED, network='public')
    builder.add_text_memo(
        "NWC daily burn: {}".format(burn_sum)).append_payment_op(
            destination=ISSUER,
            amount=burn_sum,
            asset_code='NWC',
            asset_issuer=ISSUER)
    builder.sign()
    response = builder.submit()
    return response
Ejemplo n.º 31
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def bounty_dispatcher(document, amount):
    """
    Dispatch amount specified to the destination address
    :param document: Desetination address
    :param amount: Amount of nwc to dispatch
    :return: response object
    """
    for line in document:
        builder = Builder(secret=REAL_SEED, network='public')
        builder.add_text_memo(
            "NWC bounty reward amount: {}".format(amount)).append_payment_op(
                destination=line,
                amount=amount,
                asset_code='NWC',
                asset_issuer=ISSUER)
        builder.sign()
        response = builder.submit()
        print(response)
        with open("bounty.log", "a+") as log:
            log.write("\n")
            log.write(datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S"))
            log.write("\n")
            log.write("=============================================")
            log.write("\n")
            log.write(json.dumps(response))
            log.write("\n")
    return response
Ejemplo n.º 32
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 def cancel_all_offers(self):
     # 取消当前交易对的所有委单
     offers = self.handle_offers_data()
     builder = Builder(secret=self.seed, network=self.network, horizon=self.horizon_url)
     for offer in offers:
         builder.append_manage_offer_op(selling_code=self.selling_asset.code,
                                        selling_issuer=self.selling_asset.issuer,
                                        buying_code=self.buying_asset.code,
                                        buying_issuer=self.buying_asset.issuer,
                                        amount='0',
                                        price='1',
                                        offer_id=offer['id'])
     builder.sign()
     builder.submit()
Ejemplo n.º 33
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 def create_offers(self):
     # 创建挂单。这里是两个订单
     # 买入价格 = 买一价 * (1 - buying_rate)
     # 卖出价格 = 卖一价 * (1 + selling_rate)
     market_price = self.get_price()
     builder = Builder(secret=self.seed, network=self.network, horizon=self.horizon_url)
     # 卖出 base_asset
     selling_price = round(float(market_price['ask']) * (1 + self.selling_rate), 7)
     builder.append_manage_offer_op(selling_code=self.selling_asset.code, selling_issuer=self.selling_asset.issuer,
                                    buying_code=self.buying_asset.code,
                                    buying_issuer=self.buying_asset.issuer,
                                    amount=self.selling_amount, price=selling_price)
     # 买入 base_asset
     buying_tmp_price = float(market_price['bid']) * (1 - self.buying_rate)
     buying_price = round(1 / buying_tmp_price, 7)
     buying_amount = round(self.buying_amount * buying_tmp_price, 7)
     builder.append_manage_offer_op(selling_code=self.buying_asset.code,
                                    selling_issuer=self.buying_asset.issuer,
                                    buying_code=self.selling_asset.code,
                                    buying_issuer=self.selling_asset.issuer,
                                    amount=buying_amount,
                                    price=buying_price)
     builder.sign()
     builder.submit()
Ejemplo n.º 34
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    def test_builder_xdr(self):
        cold_account = self.cold.address().decode()
        hot_account = self.hot.address().decode()
        fund(cold_account)

        fund(hot_account)

        cold = Builder(self.cold.seed().decode()) \
            .append_trust_op(cold_account, 'BEER', 1000, hot_account) \
            .append_payment_op(hot_account, 100, 'BEER', cold_account) \
            .append_payment_op(cold_account, 2.222,
                               'BEER', cold_account, hot_account)
        xdr = cold.gen_xdr()
        hot = Builder(self.hot.seed().decode())
        hot.import_from_xdr(xdr)
        # hot.sign()

        try:
            response = hot.submit()
        except:
            assert False