def test_blockchain_fixtures(fixture_data, fixture):
try:
chain = new_chain_from_fixture(fixture)
except ValueError as e:
raise AssertionError("could not load chain for %r" %
fixture_data) from e
genesis_params = genesis_params_from_fixture(fixture)
expected_genesis_header = BlockHeader(**genesis_params)
# TODO: find out if this is supposed to pass?
# if 'genesisRLP' in fixture:
# assert rlp.encode(genesis_header) == fixture['genesisRLP']
genesis_block = chain.get_canonical_block_by_number(0)
genesis_header = genesis_block.header
assert_rlp_equal(genesis_header, expected_genesis_header)
# 1 - mine the genesis block
# 2 - loop over blocks:
# - apply transactions
# - mine block
# 4 - profit!!
for block_fixture in fixture['blocks']:
should_be_good_block = 'blockHeader' in block_fixture
if 'rlp_error' in block_fixture:
assert not should_be_good_block
continue
try:
(block, mined_block,
block_rlp) = apply_fixture_block_to_chain(block_fixture, chain)
except (TypeError, rlp.DecodingError, rlp.DeserializationError,
ValidationError) as err:
assert not should_be_good_block, "Block should be good: {0}".format(
err)
else:
assert_rlp_equal(block, mined_block)
assert should_be_good_block, "Block should have caused a validation error"
latest_block_hash = chain.get_canonical_block_by_number(
chain.get_block().number - 1).hash
assert latest_block_hash == fixture['lastblockhash']
verify_state_db(fixture['postState'],
chain.get_vm().state.read_only_state_db)
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)
vm_state = vm.state
with vm_state.state_db() as state_db:
setup_state_db(fixture['pre'], state_db)
code = state_db.get_code(fixture['exec']['address'])
# Update state_root manually
vm.block.header.state_root = vm_state.state_root
computation = computation_getter(fixture, code, vm)
# Update state_root manually
vm.block.header.state_root = computation.vm_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
post_state = fixture['post']
else:
#
# Error checks
#
assert computation.is_error
assert isinstance(computation._error, VMError)
post_state = fixture['pre']
with vm.state.state_db(read_only=True) as state_db:
verify_state_db(post_state, state_db)
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)
vm_state = vm.state
with vm_state.state_db() as state_db:
setup_state_db(fixture['pre'], state_db)
code = state_db.get_code(fixture['exec']['address'])
# Update state_root manually
vm.block.header.state_root = vm_state.state_root
computation = computation_getter(fixture, code, vm)
# Update state_root manually
vm.block.header.state_root = computation.vm_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
post_state = fixture['post']
else:
#
# Error checks
#
assert computation.is_error
assert isinstance(computation._error, VMError)
post_state = fixture['pre']
with vm.state.state_db(read_only=True) as state_db:
verify_state_db(post_state, state_db)