コード例 #1
0
def get_server(privkey, address):
    base_db = AtomicDB()
    headerdb = FakeAsyncHeaderDB(base_db)
    chaindb = ChainDB(base_db)
    chaindb.persist_header(ROPSTEN_GENESIS_HEADER)
    chain = RopstenChain(base_db)
    server = ParagonServer(
        privkey=privkey,
        port=address.tcp_port,
        chain=chain,
        chaindb=chaindb,
        headerdb=headerdb,
        base_db=base_db,
        network_id=NETWORK_ID,
    )
    return server
コード例 #2
0
def prepare_computation(vm_class):

    message = Message(
        to=CANONICAL_ADDRESS_A,
        sender=CANONICAL_ADDRESS_B,
        value=100,
        data=b'',
        code=b'',
        gas=800,
    )

    tx_context = vm_class._state_class.transaction_context_class(
        gas_price=1,
        origin=CANONICAL_ADDRESS_B,
    )

    vm = vm_class(GENESIS_HEADER, ChainDB(AtomicDB()))

    computation = vm_class._state_class.computation_class(
        state=vm.state,
        message=message,
        transaction_context=tx_context,
    )

    computation.state.account_db.touch_account(
        decode_hex(EMPTY_ADDRESS_IN_STATE))
    computation.state.account_db.set_code(decode_hex(ADDRESS_WITH_CODE[0]),
                                          ADDRESS_WITH_CODE[1])

    return computation
コード例 #3
0
def database_server_ipc_path():
    core_db = AtomicDB()
    core_db[b'key-a'] = b'value-a'

    chaindb = ChainDB(core_db)
    # TODO: use a custom chain class only for testing.
    chaindb.persist_header(ROPSTEN_GENESIS_HEADER)

    with tempfile.TemporaryDirectory() as temp_dir:
        chain_config = ChainConfig(network_id=ROPSTEN_NETWORK_ID, max_peers=1, data_dir=temp_dir)

        manager = get_chaindb_manager(chain_config, core_db)
        chaindb_server_process = multiprocessing.Process(
            target=serve_chaindb,
            args=(manager,),
        )
        chaindb_server_process.start()

        wait_for_ipc(chain_config.database_ipc_path)

        try:
            yield chain_config.database_ipc_path
        finally:
            kill_process_gracefully(chaindb_server_process, logging.getLogger())
コード例 #4
0
def chaindb(chain_config):
    return ChainDB(LevelDB(db_path=chain_config.database_dir))
コード例 #5
0
def test_vm_fixtures(fixture, vm_class, computation_getter):
    chaindb = ChainDB(get_db_backend())
    header = BlockHeader(
        coinbase=fixture['env']['currentCoinbase'],
        difficulty=fixture['env']['currentDifficulty'],
        block_number=fixture['env']['currentNumber'],
        gas_limit=fixture['env']['currentGasLimit'],
        timestamp=fixture['env']['currentTimestamp'],
    )
    vm = vm_class(header=header, chaindb=chaindb)
    state = vm.state
    setup_account_db(fixture['pre'], state.account_db)
    code = state.account_db.get_code(fixture['exec']['address'])
    # Update state_root manually
    vm.block = vm.block.copy(header=vm.block.header.copy(
        state_root=state.state_root))

    message = Message(
        to=fixture['exec']['address'],
        sender=fixture['exec']['caller'],
        value=fixture['exec']['value'],
        data=fixture['exec']['data'],
        code=code,
        gas=fixture['exec']['gas'],
    )
    transaction_context = BaseTransactionContext(
        origin=fixture['exec']['origin'],
        gas_price=fixture['exec']['gasPrice'],
    )
    computation = vm.state.get_computation(
        message, transaction_context).apply_computation(
            vm.state,
            message,
            transaction_context,
        )
    # Update state_root manually
    vm.block = vm.block.copy(
        header=vm.block.header.copy(state_root=computation.state.state_root), )

    if 'post' in fixture:
        #
        # Success checks
        #
        assert not computation.is_error

        log_entries = computation.get_log_entries()
        if 'logs' in fixture:
            actual_logs_hash = hash_log_entries(log_entries)
            expected_logs_hash = fixture['logs']
            assert expected_logs_hash == actual_logs_hash
        elif log_entries:
            raise AssertionError("Got log entries: {0}".format(log_entries))

        expected_output = fixture['out']
        assert computation.output == expected_output

        gas_meter = computation._gas_meter

        expected_gas_remaining = fixture['gas']
        actual_gas_remaining = gas_meter.gas_remaining
        gas_delta = actual_gas_remaining - expected_gas_remaining
        assert gas_delta == 0, "Gas difference: {0}".format(gas_delta)

        call_creates = fixture.get('callcreates', [])
        assert len(computation.children) == len(call_creates)

        call_creates = fixture.get('callcreates', [])
        for child_computation, created_call in zip(computation.children,
                                                   call_creates):
            to_address = created_call['destination']
            data = created_call['data']
            gas_limit = created_call['gasLimit']
            value = created_call['value']

            assert child_computation.msg.to == to_address
            assert data == child_computation.msg.data or child_computation.msg.code
            assert gas_limit == child_computation.msg.gas
            assert value == child_computation.msg.value
        expected_account_db = fixture['post']
    else:
        #
        # Error checks
        #
        assert computation.is_error
        assert isinstance(computation._error, VMError)
        expected_account_db = fixture['pre']

    verify_account_db(expected_account_db, vm.state.account_db)
コード例 #6
0
def chaindb(base_db):
    return ChainDB(base_db)
コード例 #7
0
def test_state_fixtures(fixture, fixture_vm_class):
    header = BlockHeader(
        coinbase=fixture['env']['currentCoinbase'],
        difficulty=fixture['env']['currentDifficulty'],
        block_number=fixture['env']['currentNumber'],
        gas_limit=fixture['env']['currentGasLimit'],
        timestamp=fixture['env']['currentTimestamp'],
        parent_hash=fixture['env']['previousHash'],
    )

    chaindb = ChainDB(get_db_backend())
    vm = fixture_vm_class(header=header, chaindb=chaindb)

    state = vm.state
    apply_state_dict(state.account_db, fixture['pre'])
    state.account_db.persist()

    # Update state_root manually
    vm.block = vm.block.copy(header=vm.block.header.copy(state_root=state.state_root))
    if 'secretKey' in fixture['transaction']:
        unsigned_transaction = vm.create_unsigned_transaction(
            nonce=fixture['transaction']['nonce'],
            gas_price=fixture['transaction']['gasPrice'],
            gas=fixture['transaction']['gasLimit'],
            to=fixture['transaction']['to'],
            value=fixture['transaction']['value'],
            data=fixture['transaction']['data'],
        )
        private_key = keys.PrivateKey(fixture['transaction']['secretKey'])
        transaction = unsigned_transaction.as_signed_transaction(private_key=private_key)
    elif 'vrs' in fixture['transaction']:
        v, r, s = (
            fixture['transaction']['v'],
            fixture['transaction']['r'],
            fixture['transaction']['s'],
        )
        transaction = vm.create_transaction(
            nonce=fixture['transaction']['nonce'],
            gas_price=fixture['transaction']['gasPrice'],
            gas=fixture['transaction']['gasLimit'],
            to=fixture['transaction']['to'],
            value=fixture['transaction']['value'],
            data=fixture['transaction']['data'],
            v=v,
            r=r,
            s=s,
        )

    try:
        header, receipt, computation = vm.apply_transaction(vm.block.header, transaction)
        transactions = vm.block.transactions + (transaction, )
        receipts = vm.block.get_receipts(chaindb) + (receipt, )
        block = vm.set_block_transactions(vm.block, header, transactions, receipts)
    except ValidationError as err:
        block = vm.block
        transaction_error = err
        logger.warning("Got transaction error", exc_info=True)
    else:
        transaction_error = False

    if not transaction_error:
        log_entries = computation.get_log_entries()
        actual_logs_hash = hash_log_entries(log_entries)
        if 'logs' in fixture['post']:
            expected_logs_hash = fixture['post']['logs']
            assert expected_logs_hash == actual_logs_hash
        elif log_entries:
            raise AssertionError("Got log {0} entries. hash:{1}".format(
                len(log_entries),
                actual_logs_hash,
            ))

        if 'out' in fixture:
            expected_output = fixture['out']
            if isinstance(expected_output, int):
                assert len(computation.output) == expected_output
            else:
                assert computation.output == expected_output

    assert block.header.state_root == fixture['post']['hash']