# Copyright BigchainDB GmbH and BigchainDB contributors # SPDX-License-Identifier: (Apache-2.0 AND CC-BY-4.0) # Code is Apache-2.0 and docs are CC-BY-4.0 from unittest.mock import patch import pytest from base58 import b58decode pytestmark = pytest.mark.bdb class TestBigchainApi(object): def test_get_spent_with_double_spend_detected(self, b, alice): from bigchaindb.models import Transaction from bigchaindb.common.exceptions import DoubleSpend from bigchaindb.exceptions import CriticalDoubleSpend tx = Transaction.create([alice.public_key], [([alice.public_key], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) transfer_tx = Transaction.transfer(tx.to_inputs(), [([alice.public_key], 1)], asset_id=tx.id) transfer_tx = transfer_tx.sign([alice.private_key]) transfer_tx2 = Transaction.transfer(tx.to_inputs(), [([alice.public_key], 2)], asset_id=tx.id) transfer_tx2 = transfer_tx2.sign([alice.private_key]) with pytest.raises(DoubleSpend): b.validate_transaction(transfer_tx2, [transfer_tx]) b.store_bulk_transactions([transfer_tx]) with pytest.raises(DoubleSpend): b.validate_transaction(transfer_tx2) b.store_bulk_transactions([transfer_tx2]) with pytest.raises(CriticalDoubleSpend): b.get_spent(tx.id, 0) def test_double_inclusion(self, b, alice): from bigchaindb.models import Transaction from bigchaindb.backend.exceptions import OperationError tx = Transaction.create([alice.public_key], [([alice.public_key], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) with pytest.raises(OperationError): b.store_bulk_transactions([tx]) def test_text_search(self, b, alice): from bigchaindb.models import Transaction # define the assets asset1 = {'msg': 'BigchainDB 1'} asset2 = {'msg': 'BigchainDB 2'} asset3 = {'msg': 'BigchainDB 3'} # create the transactions tx1 = Transaction.create([alice.public_key], [([alice.public_key], 1)], asset=asset1).sign([alice.private_key]) tx2 = Transaction.create([alice.public_key], [([alice.public_key], 1)], asset=asset2).sign([alice.private_key]) tx3 = Transaction.create([alice.public_key], [([alice.public_key], 1)], asset=asset3).sign([alice.private_key]) # write the transactions to the DB b.store_bulk_transactions([tx1, tx2, tx3]) # get the assets through text search assets = list(b.text_search('bigchaindb')) assert len(assets) == 3 @pytest.mark.usefixtures('inputs') def test_non_create_input_not_found(self, b, user_pk): from cryptoconditions import Ed25519Sha256 from bigchaindb.common.exceptions import InputDoesNotExist from bigchaindb.common.transaction import Input, TransactionLink from bigchaindb.models import Transaction # Create an input for a non existing transaction input = Input(Ed25519Sha256(public_key=b58decode(user_pk)), [user_pk], TransactionLink('somethingsomething', 0)) tx = Transaction.transfer([input], [([user_pk], 1)], asset_id='mock_asset_link') with pytest.raises(InputDoesNotExist): tx.validate(b) def test_write_transaction(self, b, user_sk, user_pk, alice, create_tx): from bigchaindb.models import Transaction asset1 = {'msg': 'BigchainDB 1'} tx = Transaction.create([alice.public_key], [([alice.public_key], 1)], asset=asset1).sign([alice.private_key]) b.store_bulk_transactions([tx]) tx_from_db = b.get_transaction(tx.id) before = tx.to_dict() after = tx_from_db.to_dict() assert before['asset']['data'] == after['asset']['data'] before.pop('asset', None) after.pop('asset', None) assert before == after class TestTransactionValidation(object): def test_non_create_input_not_found(self, b, signed_transfer_tx): from bigchaindb.common.exceptions import InputDoesNotExist from bigchaindb.common.transaction import TransactionLink signed_transfer_tx.inputs[0].fulfills = TransactionLink('c', 0) with pytest.raises(InputDoesNotExist): b.validate_transaction(signed_transfer_tx) @pytest.mark.usefixtures('inputs') def test_non_create_valid_input_wrong_owner(self, b, user_pk): from bigchaindb.common.crypto import generate_key_pair from bigchaindb.common.exceptions import InvalidSignature from bigchaindb.models import Transaction input_tx = b.fastquery.get_outputs_by_public_key(user_pk).pop() input_transaction = b.get_transaction(input_tx.txid) sk, pk = generate_key_pair() tx = Transaction.create([pk], [([user_pk], 1)]) tx.operation = 'TRANSFER' tx.asset = {'id': input_transaction.id} tx.inputs[0].fulfills = input_tx with pytest.raises(InvalidSignature): b.validate_transaction(tx) @pytest.mark.usefixtures('inputs') def test_non_create_double_spend(self, b, signed_create_tx, signed_transfer_tx, double_spend_tx): from bigchaindb.common.exceptions import DoubleSpend b.store_bulk_transactions([signed_create_tx, signed_transfer_tx]) with pytest.raises(DoubleSpend): b.validate_transaction(double_spend_tx) class TestMultipleInputs(object): def test_transfer_single_owner_single_input(self, b, inputs, user_pk, user_sk): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() tx_link = b.fastquery.get_outputs_by_public_key(user_pk).pop() input_tx = b.get_transaction(tx_link.txid) inputs = input_tx.to_inputs() tx = Transaction.transfer(inputs, [([user2_pk], 1)], asset_id=input_tx.id) tx = tx.sign([user_sk]) # validate transaction tx.validate(b) assert len(tx.inputs) == 1 assert len(tx.outputs) == 1 def test_single_owner_before_multiple_owners_after_single_input(self, b, user_sk, user_pk, inputs): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() user3_sk, user3_pk = crypto.generate_key_pair() tx_link = b.fastquery.get_outputs_by_public_key(user_pk).pop() input_tx = b.get_transaction(tx_link.txid) tx = Transaction.transfer(input_tx.to_inputs(), [([user2_pk, user3_pk], 1)], asset_id=input_tx.id) tx = tx.sign([user_sk]) tx.validate(b) assert len(tx.inputs) == 1 assert len(tx.outputs) == 1 @pytest.mark.usefixtures('inputs') def test_multiple_owners_before_single_owner_after_single_input(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() user3_sk, user3_pk = crypto.generate_key_pair() tx = Transaction.create([alice.public_key], [([user_pk, user2_pk], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) owned_input = b.fastquery.get_outputs_by_public_key(user_pk).pop() input_tx = b.get_transaction(owned_input.txid) inputs = input_tx.to_inputs() transfer_tx = Transaction.transfer(inputs, [([user3_pk], 1)], asset_id=input_tx.id) transfer_tx = transfer_tx.sign([user_sk, user2_sk]) # validate transaction transfer_tx.validate(b) assert len(transfer_tx.inputs) == 1 assert len(transfer_tx.outputs) == 1 @pytest.mark.usefixtures('inputs') def test_multiple_owners_before_multiple_owners_after_single_input(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() user3_sk, user3_pk = crypto.generate_key_pair() user4_sk, user4_pk = crypto.generate_key_pair() tx = Transaction.create([alice.public_key], [([user_pk, user2_pk], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) # get input tx_link = b.fastquery.get_outputs_by_public_key(user_pk).pop() tx_input = b.get_transaction(tx_link.txid) tx = Transaction.transfer(tx_input.to_inputs(), [([user3_pk, user4_pk], 1)], asset_id=tx_input.id) tx = tx.sign([user_sk, user2_sk]) tx.validate(b) assert len(tx.inputs) == 1 assert len(tx.outputs) == 1 def test_get_owned_ids_single_tx_single_output(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.common.transaction import TransactionLink from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() tx = Transaction.create([alice.public_key], [([user_pk], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user2_pk) assert owned_inputs_user1 == [TransactionLink(tx.id, 0)] assert owned_inputs_user2 == [] tx_transfer = Transaction.transfer(tx.to_inputs(), [([user2_pk], 1)], asset_id=tx.id) tx_transfer = tx_transfer.sign([user_sk]) b.store_bulk_transactions([tx_transfer]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user2_pk) assert owned_inputs_user1 == [TransactionLink(tx.id, 0)] assert owned_inputs_user2 == [TransactionLink(tx_transfer.id, 0)] def test_get_owned_ids_single_tx_multiple_outputs(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.common.transaction import TransactionLink from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() # create divisible asset tx_create = Transaction.create([alice.public_key], [([user_pk], 1), ([user_pk], 1)]) tx_create_signed = tx_create.sign([alice.private_key]) b.store_bulk_transactions([tx_create_signed]) # get input owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user2_pk) expected_owned_inputs_user1 = [TransactionLink(tx_create.id, 0), TransactionLink(tx_create.id, 1)] assert owned_inputs_user1 == expected_owned_inputs_user1 assert owned_inputs_user2 == [] # transfer divisible asset divided in two outputs tx_transfer = Transaction.transfer(tx_create.to_inputs(), [([user2_pk], 1), ([user2_pk], 1)], asset_id=tx_create.id) tx_transfer_signed = tx_transfer.sign([user_sk]) b.store_bulk_transactions([tx_transfer_signed]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user2_pk) assert owned_inputs_user1 == expected_owned_inputs_user1 assert owned_inputs_user2 == [TransactionLink(tx_transfer.id, 0), TransactionLink(tx_transfer.id, 1)] def test_get_owned_ids_multiple_owners(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.common.transaction import TransactionLink from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() user3_sk, user3_pk = crypto.generate_key_pair() tx = Transaction.create([alice.public_key], [([user_pk, user2_pk], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user_pk) expected_owned_inputs_user1 = [TransactionLink(tx.id, 0)] assert owned_inputs_user1 == owned_inputs_user2 assert owned_inputs_user1 == expected_owned_inputs_user1 tx = Transaction.transfer(tx.to_inputs(), [([user3_pk], 1)], asset_id=tx.id) tx = tx.sign([user_sk, user2_sk]) b.store_bulk_transactions([tx]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) owned_inputs_user2 = b.fastquery.get_outputs_by_public_key(user2_pk) spent_user1 = b.get_spent(tx.id, 0) assert owned_inputs_user1 == owned_inputs_user2 assert not spent_user1 def test_get_spent_single_tx_single_output(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() tx = Transaction.create([alice.public_key], [([user_pk], 1)]) tx = tx.sign([alice.private_key]) b.store_bulk_transactions([tx]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk).pop() # check spents input_txid = owned_inputs_user1.txid spent_inputs_user1 = b.get_spent(input_txid, 0) assert spent_inputs_user1 is None # create a transaction and send it tx = Transaction.transfer(tx.to_inputs(), [([user2_pk], 1)], asset_id=tx.id) tx = tx.sign([user_sk]) b.store_bulk_transactions([tx]) spent_inputs_user1 = b.get_spent(input_txid, 0) assert spent_inputs_user1 == tx def test_get_spent_single_tx_multiple_outputs(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.models import Transaction # create a new users user2_sk, user2_pk = crypto.generate_key_pair() # create a divisible asset with 3 outputs tx_create = Transaction.create([alice.public_key], [([user_pk], 1), ([user_pk], 1), ([user_pk], 1)]) tx_create_signed = tx_create.sign([alice.private_key]) b.store_bulk_transactions([tx_create_signed]) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) # check spents for input_tx in owned_inputs_user1: assert b.get_spent(input_tx.txid, input_tx.output) is None # transfer the first 2 inputs tx_transfer = Transaction.transfer(tx_create.to_inputs()[:2], [([user2_pk], 1), ([user2_pk], 1)], asset_id=tx_create.id) tx_transfer_signed = tx_transfer.sign([user_sk]) b.store_bulk_transactions([tx_transfer_signed]) # check that used inputs are marked as spent for ffill in tx_create.to_inputs()[:2]: spent_tx = b.get_spent(ffill.fulfills.txid, ffill.fulfills.output) assert spent_tx == tx_transfer_signed # check if remaining transaction that was unspent is also perceived # spendable by BigchainDB assert b.get_spent(tx_create.to_inputs()[2].fulfills.txid, 2) is None def test_get_spent_multiple_owners(self, b, user_sk, user_pk, alice): from bigchaindb.common import crypto from bigchaindb.models import Transaction user2_sk, user2_pk = crypto.generate_key_pair() user3_sk, user3_pk = crypto.generate_key_pair() transactions = [] for i in range(3): payload = {'somedata': i} tx = Transaction.create([alice.public_key], [([user_pk, user2_pk], 1)], payload) tx = tx.sign([alice.private_key]) transactions.append(tx) b.store_bulk_transactions(transactions) owned_inputs_user1 = b.fastquery.get_outputs_by_public_key(user_pk) # check spents for input_tx in owned_inputs_user1: assert b.get_spent(input_tx.txid, input_tx.output) is None # create a transaction tx = Transaction.transfer(transactions[0].to_inputs(), [([user3_pk], 1)], asset_id=transactions[0].id) tx = tx.sign([user_sk, user2_sk]) b.store_bulk_transactions([tx]) # check that used inputs are marked as spent assert b.get_spent(transactions[0].id, 0) == tx # check that the other remain marked as unspent for unspent in transactions[1:]: assert b.get_spent(unspent.id, 0) is None def test_get_outputs_filtered_only_unspent(): from bigchaindb.common.transaction import TransactionLink from bigchaindb.lib import BigchainDB go = 'bigchaindb.fastquery.FastQuery.get_outputs_by_public_key' with patch(go) as get_outputs: get_outputs.return_value = [TransactionLink('a', 1), TransactionLink('b', 2)] fs = 'bigchaindb.fastquery.FastQuery.filter_spent_outputs' with patch(fs) as filter_spent: filter_spent.return_value = [TransactionLink('b', 2)] out = BigchainDB().get_outputs_filtered('abc', spent=False) get_outputs.assert_called_once_with('abc') assert out == [TransactionLink('b', 2)] def test_get_outputs_filtered_only_spent(): from bigchaindb.common.transaction import TransactionLink from bigchaindb.lib import BigchainDB go = 'bigchaindb.fastquery.FastQuery.get_outputs_by_public_key' with patch(go) as get_outputs: get_outputs.return_value = [TransactionLink('a', 1), TransactionLink('b', 2)] fs = 'bigchaindb.fastquery.FastQuery.filter_unspent_outputs' with patch(fs) as filter_spent: filter_spent.return_value = [TransactionLink('b', 2)] out = BigchainDB().get_outputs_filtered('abc', spent=True) get_outputs.assert_called_once_with('abc') assert out == [TransactionLink('b', 2)] @patch('bigchaindb.fastquery.FastQuery.filter_unspent_outputs') @patch('bigchaindb.fastquery.FastQuery.filter_spent_outputs') def test_get_outputs_filtered(filter_spent, filter_unspent): from bigchaindb.common.transaction import TransactionLink from bigchaindb.lib import BigchainDB go = 'bigchaindb.fastquery.FastQuery.get_outputs_by_public_key' with patch(go) as get_outputs: get_outputs.return_value = [TransactionLink('a', 1), TransactionLink('b', 2)] out = BigchainDB().get_outputs_filtered('abc') get_outputs.assert_called_once_with('abc') filter_spent.assert_not_called() filter_unspent.assert_not_called() assert out == get_outputs.return_value def test_cant_spend_same_input_twice_in_tx(b, alice): """Recreate duplicated fulfillments bug https://github.com/bigchaindb/bigchaindb/issues/1099 """ from bigchaindb.models import Transaction from bigchaindb.common.exceptions import DoubleSpend # create a divisible asset tx_create = Transaction.create([alice.public_key], [([alice.public_key], 100)]) tx_create_signed = tx_create.sign([alice.private_key]) assert b.validate_transaction(tx_create_signed) == tx_create_signed b.store_bulk_transactions([tx_create_signed]) # Create a transfer transaction with duplicated fulfillments dup_inputs = tx_create.to_inputs() + tx_create.to_inputs() tx_transfer = Transaction.transfer(dup_inputs, [([alice.public_key], 200)], asset_id=tx_create.id) tx_transfer_signed = tx_transfer.sign([alice.private_key]) with pytest.raises(DoubleSpend): tx_transfer_signed.validate(b) def test_transaction_unicode(b, alice): import copy from bigchaindb.common.utils import serialize from bigchaindb.models import Transaction # http://www.fileformat.info/info/unicode/char/1f37a/index.htm beer_python = {'beer': '\N{BEER MUG}'} beer_json = '{"beer":"\N{BEER MUG}"}' tx = (Transaction.create([alice.public_key], [([alice.public_key], 100)], beer_python) ).sign([alice.private_key]) tx_1 = copy.deepcopy(tx) b.store_bulk_transactions([tx]) assert beer_json in serialize(tx_1.to_dict())