def raiden_network(request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, raiden_udp_ports, transport_class, send_ping_time, max_unresponsive_time, cached_genesis, reveal_timeout, database_paths): verbosity = request.config.option.verbose raiden_apps = create_apps( blockchain_services.blockchain_services, raiden_udp_ports, transport_class, verbosity, send_ping_time, max_unresponsive_time, reveal_timeout, settle_timeout, database_paths, ) if not cached_genesis: create_network_channels(raiden_apps, token_addresses, channels_per_node, deposit, settle_timeout) for app in raiden_apps: app.raiden.register_registry(app.raiden.chain.default_registry.address) _raiden_cleanup(request, raiden_apps) return raiden_apps
def raiden_network( request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, endpoint_discovery_services, raiden_udp_ports, transport_class, cached_genesis, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout): raiden_apps = create_apps( blockchain_services.blockchain_services, endpoint_discovery_services, blockchain_services.deploy_registry.address, raiden_udp_ports, transport_class, reveal_timeout, settle_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, ) if not cached_genesis: create_network_channels( raiden_apps, token_addresses, channels_per_node, deposit, settle_timeout ) wait_for_partners(raiden_apps) _raiden_cleanup(request, raiden_apps) # The block_number is primed on the app creation, but after the app is # created all the channels are deployed, for the tester implementation this # will advance the block_number with synchronous execution, making the # apps' block_number to greatly fall behind. if not cached_genesis: for app in raiden_apps: app.raiden.alarm.poll_for_new_block() return raiden_apps
def raiden_network( request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, endpoint_discovery_services, raiden_udp_ports, transport_class, cached_genesis, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout): raiden_apps = create_apps( blockchain_services.blockchain_services, endpoint_discovery_services, blockchain_services.deploy_registry.address, raiden_udp_ports, transport_class, reveal_timeout, settle_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, ) if not cached_genesis: create_network_channels( raiden_apps, token_addresses, channels_per_node, deposit, settle_timeout ) _raiden_cleanup(request, raiden_apps) # The block_number is primed on the app creation, but after the app is # created all the channels are deployed, for the tester implementation this # will advance the block_number with synchronous execution, making the # apps' block_number to greatly fall behind. if not cached_genesis: for app in raiden_apps: app.raiden.alarm.poll_for_new_block() return raiden_apps
def raiden_network( request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, raiden_udp_ports, transport_class, send_ping_time, max_unresponsive_time, cached_genesis, reveal_timeout, database_paths): verbosity = request.config.option.verbose raiden_apps = create_apps( blockchain_services.blockchain_services, raiden_udp_ports, transport_class, verbosity, send_ping_time, max_unresponsive_time, reveal_timeout, settle_timeout, database_paths, ) if not cached_genesis: create_network_channels( raiden_apps, token_addresses, channels_per_node, deposit, settle_timeout ) for app in raiden_apps: app.raiden.register_registry(app.raiden.chain.default_registry.address) _raiden_cleanup(request, raiden_apps) # The block_number is primed on the app creation, but after the app is # created all the channels are deployed, for the tester implementation this # will advance the block_number with synchronous execution, making the # apps' block_number to greatly fall behind. if not cached_genesis: for app in raiden_apps: app.raiden.alarm.poll_for_new_block() return raiden_apps
def raiden_network( request, assets_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, transport_class, send_ping_time, max_unresponsive_time, cached_genesis): verbosity = request.config.option.verbose raiden_apps = create_apps( blockchain_services.blockchain_services, transport_class, verbosity, send_ping_time, max_unresponsive_time ) if not cached_genesis: create_network_channels( raiden_apps, assets_addresses, channels_per_node, deposit, settle_timeout, ) for app in raiden_apps: app.raiden.register_registry(app.raiden.chain.default_registry) _raiden_cleanup(request, raiden_apps) return raiden_apps
def raiden_network( token_addresses, token_network_registry_address, one_to_n_address, channels_per_node, deposit, settle_timeout, chain_id, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, environment_type, unrecoverable_error_should_crash, local_matrix_servers, private_rooms, blockchain_type, contracts_path, user_deposit_address, global_rooms, tmpdir, request, ): service_registry_address = None if blockchain_services.service_registry: service_registry_address = blockchain_services.service_registry.address if _ETH_LOGDIR: base_datadir = os.path.join(_ETH_LOGDIR, request.node.name, "raiden_nodes") else: base_datadir = os.path.join(tmpdir.strpath, "raiden_nodes") raiden_apps = create_apps( chain_id=chain_id, contracts_path=contracts_path, blockchain_services=blockchain_services.blockchain_services, endpoint_discovery_services=endpoint_discovery_services, token_network_registry_address=token_network_registry_address, secret_registry_address=blockchain_services.secret_registry.address, service_registry_address=service_registry_address, one_to_n_address=one_to_n_address, user_deposit_address=user_deposit_address, raiden_udp_ports=raiden_udp_ports, reveal_timeout=reveal_timeout, settle_timeout=settle_timeout, database_basedir=base_datadir, retry_interval=retry_interval, retries_before_backoff=retries_before_backoff, throttle_capacity=throttle_capacity, throttle_fill_rate=throttle_fill_rate, nat_invitation_timeout=nat_invitation_timeout, nat_keepalive_retries=nat_keepalive_retries, nat_keepalive_timeout=nat_keepalive_timeout, environment_type=environment_type, unrecoverable_error_should_crash=unrecoverable_error_should_crash, local_matrix_url=local_matrix_servers[0], private_rooms=private_rooms, global_rooms=global_rooms, ) confirmed_block = raiden_apps[0].raiden.confirmation_blocks + 1 blockchain_services.deploy_service.wait_until_block(target_block_number=confirmed_block) parallel_start_apps(raiden_apps) exception = RuntimeError("`raiden_chain` fixture setup failed, token networks unavailable") with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_token_networks( raiden_apps=raiden_apps, token_network_registry_address=token_network_registry_address, token_addresses=token_addresses, ) app_channels = create_network_channels(raiden_apps, channels_per_node) create_all_channels_for_network( app_channels=app_channels, token_addresses=token_addresses, channel_individual_deposit=deposit, channel_settle_timeout=settle_timeout, ) exception = RuntimeError("`raiden_network` fixture setup failed, nodes are unreachable") with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit ) # Force blocknumber update exception = RuntimeError("Alarm failed to start and set up start_block correctly") with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)
def cached_genesis(request, blockchain_type): """ Deploy all contracts that are required by the fixtures into a tester and then serialize the accounts into a genesis block. Returns: dict: A dictionary representing the genesis block. """ if not request.config.option.blockchain_cache: return if blockchain_type != 'geth': return # this will create the tester _and_ deploy the Registry deploy_key = request.getfixturevalue('deploy_key') private_keys = request.getfixturevalue('private_keys') deploy_service, blockchain_services = _tester_services( deploy_key, private_keys, request.getfixturevalue('tester_blockgas_limit'), ) # create_network only registers the tokens, # the contracts must be deployed previously register = True participants = [privatekey_to_address(privatekey) for privatekey in private_keys] token_contract_addresses = _token_addresses( request.getfixturevalue('token_amount'), request.getfixturevalue('number_of_tokens'), deploy_service, participants, register ) endpoint_discovery_address = deploy_service.deploy_contract( 'EndpointRegistry', 'EndpointRegistry.sol', ) endpoint_discovery_services = [ ContractDiscovery( chain.node_address, chain.discovery(endpoint_discovery_address), ) for chain in blockchain_services ] raiden_apps = create_apps( blockchain_services, endpoint_discovery_services, request.getfixturevalue('raiden_udp_ports'), DummyTransport, # Do not use a UDP server to avoid port reuse in MacOSX request.getfixturevalue('reveal_timeout'), request.getfixturevalue('settle_timeout'), request.getfixturevalue('database_paths'), request.getfixturevalue('retry_interval'), request.getfixturevalue('retries_before_backoff'), request.getfixturevalue('throttle_capacity'), request.getfixturevalue('throttle_fill_rate'), request.getfixturevalue('nat_invitation_timeout'), request.getfixturevalue('nat_keepalive_retries'), request.getfixturevalue('nat_keepalive_timeout'), ) if 'raiden_network' in request.fixturenames: create_network_channels( raiden_apps, token_contract_addresses, request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) elif 'raiden_chain' in request.fixturenames: create_sequential_channels( raiden_apps, token_contract_addresses[0], request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) # else: a test that is not creating channels for app in raiden_apps: app.stop(leave_channels=False) # save the state from the last block into a genesis dict tester = blockchain_services[0].tester_state tester.mine() registry_address = blockchain_services[0].default_registry.address genesis_alloc = dict() for account_address in tester.block.state.to_dict(): account_alloc = tester.block.account_to_dict(account_address) # Both keys and values of the account storage associative array # must now be encoded with 64 hex digits if account_alloc['storage']: account_alloc['storage'] = fix_tester_storage(account_alloc['storage']) # code must be hex encoded with 0x prefix account_alloc['code'] = account_alloc.get('code', '') # account_to_dict returns accounts with nonce=0 and the nonce must # be encoded with 16 hex digits account_alloc['nonce'] = '0x%016x' % tester.block.get_nonce(account_address) genesis_alloc[account_address] = account_alloc all_keys = set(private_keys) all_keys.add(deploy_key) all_keys = sorted(all_keys) account_addresses = [ privatekey_to_address(key) for key in all_keys ] for address in account_addresses: genesis_alloc[address]['balance'] = DEFAULT_BALANCE_BIN alloc = { address_encoder(address_maybe_bin): data for address_maybe_bin, data in genesis_alloc.iteritems() } genesis = GENESIS_STUB.copy() genesis['config']['clique'] = {'period': 1, 'epoch': 30000} random_marker = request.getfixturevalue('random_marker') genesis['extraData'] = clique_extradata( random_marker, address_encoder(account_addresses[0])[2:], ) genesis['alloc'] = alloc genesis['config']['defaultDiscoveryAddress'] = address_encoder(endpoint_discovery_address) genesis['config']['defaultRegistryAddress'] = address_encoder(registry_address) genesis['config']['tokenAddresses'] = [ address_encoder(token_address) for token_address in token_contract_addresses ] return genesis
def test_webui(): # pylint: disable=too-many-locals num_assets = 3 num_nodes = 10 verbose = 0 settle_timeout = DEFAULT_SETTLE_TIMEOUT assets_addresses = [ sha3('webui:asset:{}'.format(number))[:20] for number in range(num_assets) ] private_keys = [ sha3('webui:{}'.format(position)) for position in range(num_nodes) ] BlockChainServiceMock.reset() blockchain_service = BlockChainServiceMock(None, MOCK_REGISTRY_ADDRESS) registry = blockchain_service.registry(MOCK_REGISTRY_ADDRESS) for asset in assets_addresses: registry.add_asset(asset) channels_per_node = 2 deposit = 100 blockchain_services = [ BlockChainServiceMock(privkey, MOCK_REGISTRY_ADDRESS) for privkey in private_keys ] app_list = create_apps( blockchain_services, UDPTransport, verbose, ) create_network_channels( app_list, assets_addresses, channels_per_node, deposit, settle_timeout, ) app0 = app_list[0] addresses = [ app.raiden.address.encode('hex') for app in app_list if app != app_list[0] ] print '\nCreated nodes: \n', for node in addresses: print node setup_messages_cb() app0_assets = getattr(app0.raiden.api, 'assets') print '\nAvailable assets:' for asset in app0_assets: print asset.encode('hex') print '\n' wamp = WAMPRouter(app0.raiden, 8080, ['channel', 'test']) wamp.run() BlockChainServiceMock.reset()
def cached_genesis(request, blockchain_type): """ Deploy all contracts that are required by the fixtures into a tester and then serialize the accounts into a genesis block. Returns: dict: A dictionary representing the genesis block. """ if not request.config.option.blockchain_cache: return # cannot cache for mock blockchain if blockchain_type == 'mock': return # this will create the tester _and_ deploy the Registry deploy_key = request.getfixturevalue('deploy_key') private_keys = request.getfixturevalue('private_keys') deploy_service, blockchain_services = _tester_services( deploy_key, private_keys, request.getfixturevalue('tester_blockgas_limit'), ) # create_network only registers the tokens, # the contracts must be deployed previously token_contract_addresses = _tokens_addresses( request.getfixturevalue('token_amount'), request.getfixturevalue('number_of_tokens'), deploy_service, blockchain_services, ) raiden_apps = create_apps( blockchain_services, request.getfixturevalue('raiden_udp_ports'), DummyTransport, # Do not use a UDP server to avoid port reuse in MacOSX request.config.option.verbose, request.getfixturevalue('send_ping_time'), request.getfixturevalue('max_unresponsive_time'), request.getfixturevalue('reveal_timeout'), ) if 'raiden_network' in request.fixturenames: create_network_channels( raiden_apps, token_contract_addresses, request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) elif 'raiden_chain' in request.fixturenames: create_sequential_channels( raiden_apps, token_contract_addresses[0], request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) # else: a test that is not creating channels for app in raiden_apps: app.stop() # save the state from the last block into a genesis dict tester = blockchain_services[0].tester_state tester.mine() registry_address = blockchain_services[0].default_registry.address genesis_alloc = dict() for account_address in tester.block.state.to_dict(): account_alloc = tester.block.account_to_dict(account_address) # code must be hex encoded without 0x prefix account_alloc['code'] = safe_lstrip_hex(account_alloc.get('code', '')) # account_to_dict returns accounts with nonce=0 account_alloc['nonce'] = tester.block.get_nonce(account_address) genesis_alloc[account_address] = account_alloc account_addresses = [ privatekey_to_address(key) for key in set(private_keys) ] for address in account_addresses: genesis_alloc[address]['balance'] = DEFAULT_BALANCE_BIN alloc = { safe_lstrip_hex(address_encoder(address_maybe_bin)): data for address_maybe_bin, data in genesis_alloc.iteritems() } genesis = GENESIS_STUB.copy() genesis['alloc'] = alloc genesis['config']['defaultRegistryAddress'] = address_encoder( registry_address) genesis['config']['tokenAddresses'] = [ address_encoder(token_address) for token_address in token_contract_addresses ] return genesis
def raiden_network( token_addresses, token_network_registry_address, channels_per_node, deposit, settle_timeout, chain_id, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, network_type, local_matrix_server, private_rooms, ): raiden_apps = create_apps( chain_id=chain_id, blockchain_services=blockchain_services.blockchain_services, endpoint_discovery_services=endpoint_discovery_services, token_network_registry_address=token_network_registry_address, secret_registry_address=blockchain_services.secret_registry.address, raiden_udp_ports=raiden_udp_ports, reveal_timeout=reveal_timeout, settle_timeout=settle_timeout, database_paths=database_paths, retry_interval=retry_interval, retries_before_backoff=retries_before_backoff, throttle_capacity=throttle_capacity, throttle_fill_rate=throttle_fill_rate, nat_invitation_timeout=nat_invitation_timeout, nat_keepalive_retries=nat_keepalive_retries, nat_keepalive_timeout=nat_keepalive_timeout, network_type=network_type, local_matrix_url=local_matrix_server, private_rooms=private_rooms, ) start_tasks = [gevent.spawn(app.raiden.start) for app in raiden_apps] gevent.joinall(start_tasks, raise_error=True) app_channels = create_network_channels( raiden_apps, channels_per_node, ) greenlets = [] for token_address in token_addresses: for app_pair in app_channels: greenlets.append(gevent.spawn( payment_channel_open_and_deposit, app_pair[0], app_pair[1], token_address, deposit, settle_timeout, )) gevent.joinall(greenlets, raise_error=True) exception = RuntimeError('`raiden_network` fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=30, exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) # Force blocknumber update exception = RuntimeError('Alarm failed to start and set up start_block correctly') with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)
def cached_genesis(request): """ Deploy all contracts that are required by the fixtures into a tester and then serialize the accounts into a genesis block. Returns: dict: A dictionary representing the genesis block. """ if not request.config.option.blockchain_cache: return # this will create the tester _and_ deploy the Registry deploy_key = request.getfixturevalue('deploy_key') private_keys = request.getfixturevalue('private_keys') registry, deploy_service, blockchain_services = _tester_services( deploy_key, private_keys, request.getfixturevalue('tester_blockgas_limit'), ) registry_address = registry.address # create_network only registers the tokens, # the contracts must be deployed previously register = True participants = [privatekey_to_address(privatekey) for privatekey in private_keys] token_contract_addresses = _token_addresses( request.getfixturevalue('token_amount'), request.getfixturevalue('number_of_tokens'), deploy_service, registry, participants, register ) endpoint_discovery_address = deploy_service.deploy_contract( 'EndpointRegistry', get_contract_path('EndpointRegistry.sol'), ) endpoint_discovery_services = [ ContractDiscovery( chain.node_address, chain.discovery(endpoint_discovery_address), ) for chain in blockchain_services ] raiden_apps = create_apps( blockchain_services, endpoint_discovery_services, registry_address, request.getfixturevalue('raiden_udp_ports'), DummyTransport, # Do not use a UDP server to avoid port reuse in MacOSX request.getfixturevalue('reveal_timeout'), request.getfixturevalue('settle_timeout'), request.getfixturevalue('database_paths'), request.getfixturevalue('retry_interval'), request.getfixturevalue('retries_before_backoff'), request.getfixturevalue('throttle_capacity'), request.getfixturevalue('throttle_fill_rate'), request.getfixturevalue('nat_invitation_timeout'), request.getfixturevalue('nat_keepalive_retries'), request.getfixturevalue('nat_keepalive_timeout'), ) if 'raiden_network' in request.fixturenames: create_network_channels( raiden_apps, token_contract_addresses, request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) elif 'raiden_chain' in request.fixturenames: create_sequential_channels( raiden_apps, token_contract_addresses[0], request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) # else: a test that is not creating channels for app in raiden_apps: app.stop(leave_channels=False) # save the state from the last block into a genesis dict tester = blockchain_services[0].tester_chain tester.mine() genesis_alloc = dict() for account_address in tester.head_state.to_dict(): account_alloc = tester.head_state.account_to_dict(account_address) # Both keys and values of the account storage associative array # must now be encoded with 64 hex digits if account_alloc['storage']: account_alloc['storage'] = fix_tester_storage(account_alloc['storage']) # code must be hex encoded with 0x prefix account_alloc['code'] = account_alloc.get('code', '') # account_to_dict returns accounts with nonce=0 and the nonce must # be encoded with 16 hex digits account_alloc['nonce'] = '0x%016x' % tester.head_state.get_nonce(account_address) genesis_alloc[account_address] = account_alloc all_keys = set(private_keys) all_keys.add(deploy_key) all_keys = sorted(all_keys) account_addresses = [ privatekey_to_address(key) for key in all_keys ] for address in account_addresses: address_hex = hexlify(address).decode() genesis_alloc[address_hex]['balance'] = DEFAULT_BALANCE_BIN genesis = GENESIS_STUB.copy() genesis['config']['clique'] = {'period': 1, 'epoch': 30000} random_marker = request.getfixturevalue('random_marker') genesis['extraData'] = clique_extradata( random_marker, address_encoder(account_addresses[0])[2:], ) genesis['alloc'] = genesis_alloc genesis['config']['defaultDiscoveryAddress'] = address_encoder(endpoint_discovery_address) genesis['config']['defaultRegistryAddress'] = address_encoder(registry_address) genesis['config']['tokenAddresses'] = [ address_encoder(token_address) for token_address in token_contract_addresses ] return genesis
def raiden_network( request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, endpoint_discovery_services, raiden_udp_ports, transport_class, cached_genesis, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout): raiden_apps = create_apps( blockchain_services.blockchain_services, endpoint_discovery_services, blockchain_services.deploy_registry.address, raiden_udp_ports, transport_class, reveal_timeout, settle_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, ) app_channels = create_network_channels( raiden_apps, channels_per_node, ) if not cached_genesis: greenlets = [] for token_address in token_addresses: for app_pair in app_channels: greenlets.append(gevent.spawn( netting_channel_open_and_deposit, app_pair[0], app_pair[1], token_address, deposit, settle_timeout, )) gevent.wait(greenlets) exception = RuntimeError('fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=30, exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) _raiden_cleanup(request, raiden_apps) # Force blocknumber update for the tester backend if not cached_genesis: for app in raiden_apps: app.raiden.alarm.poll_for_new_block() return raiden_apps
def raiden_network( token_addresses, token_network_registry_address, channels_per_node, deposit, settle_timeout, chain_id, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, environment_type, unrecoverable_error_should_crash, local_matrix_servers, private_rooms, retry_timeout, ): raiden_apps = create_apps( chain_id=chain_id, blockchain_services=blockchain_services.blockchain_services, endpoint_discovery_services=endpoint_discovery_services, token_network_registry_address=token_network_registry_address, secret_registry_address=blockchain_services.secret_registry.address, raiden_udp_ports=raiden_udp_ports, reveal_timeout=reveal_timeout, settle_timeout=settle_timeout, database_paths=database_paths, retry_interval=retry_interval, retries_before_backoff=retries_before_backoff, throttle_capacity=throttle_capacity, throttle_fill_rate=throttle_fill_rate, nat_invitation_timeout=nat_invitation_timeout, nat_keepalive_retries=nat_keepalive_retries, nat_keepalive_timeout=nat_keepalive_timeout, environment_type=environment_type, unrecoverable_error_should_crash=unrecoverable_error_should_crash, local_matrix_url=local_matrix_servers[0], private_rooms=private_rooms, ) start_tasks = [gevent.spawn(app.raiden.start) for app in raiden_apps] gevent.joinall(start_tasks, raise_error=True) exception = RuntimeError('`raiden_chain` fixture setup failed, token networks unavailable') with gevent.Timeout(seconds=30, exception=exception): wait_for_token_networks( raiden_apps=raiden_apps, token_network_registry_address=token_network_registry_address, token_addresses=token_addresses, ) app_channels = create_network_channels( raiden_apps, channels_per_node, ) create_all_channels_for_network( app_channels=app_channels, token_addresses=token_addresses, channel_individual_deposit=deposit, channel_settle_timeout=settle_timeout, token_network_registry_address=token_network_registry_address, retry_timeout=retry_timeout, ) exception = RuntimeError('`raiden_network` fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=30, exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) # Force blocknumber update exception = RuntimeError('Alarm failed to start and set up start_block correctly') with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)
def cached_genesis(request, blockchain_type): """ Deploy all contracts that are required by the fixtures into a tester and then serialize the accounts into a genesis block. Returns: dict: A dictionary representing the genesis block. """ if not request.config.option.blockchain_cache: return # cannot cache for mock blockchain if blockchain_type == 'mock': return # this will create the tester _and_ deploy the Registry deploy_key = request.getfixturevalue('deploy_key') private_keys = request.getfixturevalue('private_keys') deploy_service, blockchain_services = _tester_services( deploy_key, private_keys, request.getfixturevalue('tester_blockgas_limit'), ) # create_network only registers the tokens, # the contracts must be deployed previously register = True token_contract_addresses = _token_addresses( request.getfixturevalue('token_amount'), request.getfixturevalue('number_of_tokens'), deploy_service, blockchain_services, register) raiden_apps = create_apps( blockchain_services, request.getfixturevalue('raiden_udp_ports'), DummyTransport, # Do not use a UDP server to avoid port reuse in MacOSX request.config.option.verbose, request.getfixturevalue('send_ping_time'), request.getfixturevalue('max_unresponsive_time'), request.getfixturevalue('reveal_timeout'), request.getfixturevalue('settle_timeout'), ) if 'raiden_network' in request.fixturenames: create_network_channels( raiden_apps, token_contract_addresses, request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) elif 'raiden_chain' in request.fixturenames: create_sequential_channels( raiden_apps, token_contract_addresses[0], request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) # else: a test that is not creating channels for app in raiden_apps: app.stop() # save the state from the last block into a genesis dict tester = blockchain_services[0].tester_state tester.mine() registry_address = blockchain_services[0].default_registry.address genesis_alloc = dict() for account_address in tester.block.state.to_dict(): account_alloc = tester.block.account_to_dict(account_address) # Both keys and values of the account storage associative array # must now be encoded with 64 hex digits if account_alloc['storage']: new_storage = dict() for key, val in account_alloc['storage'].iteritems(): # account_to_dict() from pyethereum can return 0x for a storage # position. That is an invalid way of representing 0x0, which we # have to take care of here. new_key = '0x%064x' % int(key if key != '0x' else '0x0', 16) new_val = '0x%064x' % int(val, 16) new_storage[new_key] = new_val account_alloc['storage'] = new_storage # code must be hex encoded with 0x prefix account_alloc['code'] = account_alloc.get('code', '') # account_to_dict returns accounts with nonce=0 and the nonce must # be encoded with 16 hex digits account_alloc['nonce'] = '0x%016x' % tester.block.get_nonce( account_address) genesis_alloc[account_address] = account_alloc account_addresses = [ privatekey_to_address(key) for key in set(private_keys) ] for address in account_addresses: genesis_alloc[address]['balance'] = DEFAULT_BALANCE_BIN alloc = { address_encoder(address_maybe_bin): data for address_maybe_bin, data in genesis_alloc.iteritems() } genesis = GENESIS_STUB.copy() genesis['alloc'] = alloc genesis['config']['defaultRegistryAddress'] = address_encoder( registry_address) genesis['config']['tokenAddresses'] = [ address_encoder(token_address) for token_address in token_contract_addresses ] return genesis
def raiden_network( token_addresses, token_network_registry_address, channels_per_node, deposit, settle_timeout, chain_id, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, local_matrix_server, ): raiden_apps = create_apps( chain_id, blockchain_services.blockchain_services, endpoint_discovery_services, token_network_registry_address, blockchain_services.secret_registry.address, raiden_udp_ports, reveal_timeout, settle_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, local_matrix_server, ) app_channels = create_network_channels( raiden_apps, channels_per_node, ) greenlets = [] for token_address in token_addresses: for app_pair in app_channels: greenlets.append(gevent.spawn( payment_channel_open_and_deposit, app_pair[0], app_pair[1], token_address, deposit, settle_timeout, )) gevent.wait(greenlets) exception = RuntimeError('`raiden_network` fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=30, exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) # Force blocknumber update exception = RuntimeError('Alarm failed to start and set up start_block correctly') with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)
def raiden_network( token_addresses: List[TokenAddress], token_network_registry_address: TokenNetworkRegistryAddress, one_to_n_address: Optional[OneToNAddress], monitoring_service_address: MonitoringServiceAddress, channels_per_node: int, deposit: TokenAmount, settle_timeout: BlockTimeout, chain_id: ChainID, blockchain_services: BlockchainServices, reveal_timeout: BlockTimeout, retry_interval_initial: float, retry_interval_max: float, retries_before_backoff: int, environment_type: Environment, unrecoverable_error_should_crash: bool, local_matrix_servers: List[ParsedURL], blockchain_type: str, contracts_path: Path, user_deposit_address: Optional[UserDepositAddress], broadcast_rooms: List[str], logs_storage: str, register_tokens: bool, start_raiden_apps: bool, routing_mode: RoutingMode, blockchain_query_interval: float, resolver_ports: List[Optional[int]], enable_rest_api: bool, port_generator: Iterator[Port], capabilities: CapabilitiesConfig, ) -> Iterable[List[RaidenService]]: service_registry_address = None if blockchain_services.service_registry: service_registry_address = blockchain_services.service_registry.address base_datadir = os.path.join(logs_storage, "raiden_nodes") raiden_apps = create_apps( chain_id=chain_id, contracts_path=contracts_path, blockchain_services=blockchain_services.blockchain_services, token_network_registry_address=token_network_registry_address, secret_registry_address=blockchain_services.secret_registry.address, service_registry_address=service_registry_address, one_to_n_address=one_to_n_address, user_deposit_address=user_deposit_address, monitoring_service_contract_address=monitoring_service_address, reveal_timeout=reveal_timeout, settle_timeout=settle_timeout, database_basedir=base_datadir, retry_interval_initial=retry_interval_initial, retry_interval_max=retry_interval_max, retries_before_backoff=retries_before_backoff, environment_type=environment_type, unrecoverable_error_should_crash=unrecoverable_error_should_crash, local_matrix_url=local_matrix_servers[0], broadcast_rooms=broadcast_rooms, routing_mode=routing_mode, blockchain_query_interval=blockchain_query_interval, resolver_ports=resolver_ports, enable_rest_api=enable_rest_api, port_generator=port_generator, capabilities_config=capabilities, ) confirmed_block = BlockNumber(raiden_apps[0].confirmation_blocks + 1) blockchain_services.proxy_manager.client.wait_until_block(target_block_number=confirmed_block) if start_raiden_apps: parallel_start_apps(raiden_apps) if register_tokens: exception = RuntimeError( "`raiden_chain` fixture setup failed, token networks unavailable" ) with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_token_networks( raiden_apps=raiden_apps, token_network_registry_address=token_network_registry_address, token_addresses=token_addresses, ) app_channels = create_network_channels(raiden_apps, channels_per_node) create_all_channels_for_network( app_channels=app_channels, token_addresses=token_addresses, channel_individual_deposit=deposit, channel_settle_timeout=settle_timeout, ) if start_raiden_apps: exception = RuntimeError("`raiden_network` fixture setup failed, nodes are unreachable") with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_channels( app_channels=app_channels, token_network_registry_address=blockchain_services.deploy_registry.address, token_addresses=token_addresses, deposit=deposit, ) # Force blocknumber update exception = RuntimeError("Alarm failed to start and set up start_block correctly") with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)
def cached_genesis(request, blockchain_type): """ Deploy all contracts that are required by the fixtures into a tester and then serialize the accounts into a genesis block. Returns: dict: A dictionary representing the genesis block. """ if not request.config.option.blockchain_cache: return # cannot cache for mock blockchain if blockchain_type == 'mock': return # this will create the tester _and_ deploy the Registry deploy_key = request.getfixturevalue('deploy_key') private_keys = request.getfixturevalue('private_keys') deploy_service, blockchain_services = _tester_services( deploy_key, private_keys, request.getfixturevalue('tester_blockgas_limit'), ) # create_network only register the assets, the contracts must be deployed # previously asset_contract_addresses = _assets_addresses( request.getfixturevalue('asset_amount'), request.getfixturevalue('number_of_assets'), deploy_service, blockchain_services, ) raiden_apps = create_apps( blockchain_services, request.getfixturevalue('transport_class'), request.config.option.verbose, request.getfixturevalue('send_ping_time'), request.getfixturevalue('max_unresponsive_time'), ) if 'raiden_network' in request.fixturenames: create_network_channels( raiden_apps, asset_contract_addresses, request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) elif 'raiden_chain' in request.fixturenames: create_sequential_channels( raiden_apps, asset_contract_addresses[0], request.getfixturevalue('channels_per_node'), request.getfixturevalue('deposit'), request.getfixturevalue('settle_timeout'), ) # else: a test that is not creating channels for app in raiden_apps: app.stop() # save the state from the last block into a genesis dict tester = blockchain_services[0].tester_state tester.mine() registry_address = blockchain_services[0].default_registry.address genesis_alloc = dict() for account_address in tester.block.state.to_dict(): account_alloc = tester.block.account_to_dict(account_address) # code must be hex encoded without 0x prefix account_alloc['code'] = safe_lstrip_hex(account_alloc.get('code', '')) # account_to_dict returns accounts with nonce=0 account_alloc['nonce'] = tester.block.get_nonce(account_address) genesis_alloc[account_address] = account_alloc account_addresses = [ privatekey_to_address(key) for key in set(private_keys) ] for address in account_addresses: genesis_alloc[address]['balance'] = DEFAULT_BALANCE_BIN alloc = { safe_lstrip_hex(address_encoder(address_maybe_bin)): data for address_maybe_bin, data in genesis_alloc.iteritems() } genesis = GENESIS_STUB.copy() genesis['alloc'] = alloc genesis['config']['defaultRegistryAddress'] = address_encoder(registry_address) genesis['config']['assetAddresses'] = [ address_encoder(asset_address) for asset_address in asset_contract_addresses ] return genesis
def raiden_network( request, token_addresses, channels_per_node, deposit, settle_timeout, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, local_matrix_server, ): raiden_apps = create_apps( blockchain_services.blockchain_services, endpoint_discovery_services, blockchain_services.deploy_registry.address, blockchain_services.secret_registry.address, raiden_udp_ports, reveal_timeout, settle_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, local_matrix_server, ) app_channels = create_network_channels( raiden_apps, channels_per_node, ) greenlets = [] for token_address in token_addresses: for app_pair in app_channels: greenlets.append( gevent.spawn( netting_channel_open_and_deposit, app_pair[0], app_pair[1], token_address, deposit, settle_timeout, )) gevent.wait(greenlets) exception = RuntimeError( '`raiden_network` fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=30, exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) _raiden_cleanup(request, raiden_apps) # Force blocknumber update exception = RuntimeError( 'Alarm failed to start and set up start_block correctly') with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) for app in raiden_apps: app.raiden.alarm.poll_for_new_block() yield raiden_apps [app.stop() for app in raiden_apps]
def raiden_network( token_addresses, token_network_registry_address, channels_per_node, deposit, settle_timeout, chain_id, blockchain_services, endpoint_discovery_services, raiden_udp_ports, reveal_timeout, database_paths, retry_interval, retries_before_backoff, throttle_capacity, throttle_fill_rate, nat_invitation_timeout, nat_keepalive_retries, nat_keepalive_timeout, environment_type, unrecoverable_error_should_crash, local_matrix_servers, private_rooms, retry_timeout, blockchain_type, ): raiden_apps = create_apps( chain_id=chain_id, blockchain_services=blockchain_services.blockchain_services, endpoint_discovery_services=endpoint_discovery_services, token_network_registry_address=token_network_registry_address, secret_registry_address=blockchain_services.secret_registry.address, raiden_udp_ports=raiden_udp_ports, reveal_timeout=reveal_timeout, settle_timeout=settle_timeout, database_paths=database_paths, retry_interval=retry_interval, retries_before_backoff=retries_before_backoff, throttle_capacity=throttle_capacity, throttle_fill_rate=throttle_fill_rate, nat_invitation_timeout=nat_invitation_timeout, nat_keepalive_retries=nat_keepalive_retries, nat_keepalive_timeout=nat_keepalive_timeout, environment_type=environment_type, unrecoverable_error_should_crash=unrecoverable_error_should_crash, local_matrix_url=local_matrix_servers[0], private_rooms=private_rooms, ) wait_for_confirmed_block(blockchain_services, raiden_apps) parallel_start_apps(raiden_apps) exception = RuntimeError( '`raiden_chain` fixture setup failed, token networks unavailable') with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_token_networks( raiden_apps=raiden_apps, token_network_registry_address=token_network_registry_address, token_addresses=token_addresses, ) app_channels = create_network_channels( raiden_apps, channels_per_node, ) create_all_channels_for_network( app_channels=app_channels, token_addresses=token_addresses, channel_individual_deposit=deposit, channel_settle_timeout=settle_timeout, token_network_registry_address=token_network_registry_address, retry_timeout=retry_timeout, ) exception = RuntimeError( '`raiden_network` fixture setup failed, nodes are unreachable') with gevent.Timeout(seconds=timeout(blockchain_type), exception=exception): wait_for_channels( app_channels, blockchain_services.deploy_registry.address, token_addresses, deposit, ) # Force blocknumber update exception = RuntimeError( 'Alarm failed to start and set up start_block correctly') with gevent.Timeout(seconds=5, exception=exception): wait_for_alarm_start(raiden_apps) yield raiden_apps shutdown_apps_and_cleanup_tasks(raiden_apps)