def setup_listeners(self):
"""Setup subsystems that scan for incoming events from geth."""
wallet_contract = HostedWallet.contract_class(self.web3)
token_contract = Token.contract_class(self.web3)
self.eth_wallet_listener = EthWalletListener(self.web3, wallet_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.eth_token_listener = EthTokenListener(self.web3, token_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.confirmation_updater = DatabaseConfirmationUpdater(self.web3, self.dbsession, self.asset_network_id, self.registry)
self.op_queue_manager = OperationQueueManager(self.web3, self.dbsession, self.asset_network_id, self.registry)
def setup_listeners(self):
"""Setup subsystems that scan for incoming events from geth."""
wallet_contract = HostedWallet.contract_class(self.web3)
token_contract = Token.contract_class(self.web3)
self.eth_wallet_listener = EthWalletListener(self.web3, wallet_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.eth_token_listener = EthTokenListener(self.web3, token_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.confirmation_updater = DatabaseConfirmationUpdater(self.web3, self.dbsession, self.asset_network_id, self.registry)
self.op_queue_manager = OperationQueueManager(self.web3, self.dbsession, self.asset_network_id, self.registry)
class EthereumService:
"""Ethereum service takes care of synchronizing operations between internal database and Ethereum daemon.
We take a simple approach where we have one service / db running one single thread which does all operations serial manner.
When testing, we call functions directly.
"""
def __init__(self, web3: Web3, asset_network_id: UUID, dbsession: Session, registry: Registry):
assert isinstance(web3, Web3)
assert isinstance(registry, Registry)
self.web3 = web3
self.asset_network_id = asset_network_id
self.dbsession = dbsession
self.registry = registry
self.setup_listeners()
def get_withdraw_required_confirmation_count(self):
"""How many confirmations we check on withdraw ops until we mark them confirmed."""
return 1
def setup_listeners(self):
"""Setup subsystems that scan for incoming events from geth."""
wallet_contract = HostedWallet.contract_class(self.web3)
token_contract = Token.contract_class(self.web3)
self.eth_wallet_listener = EthWalletListener(self.web3, wallet_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.eth_token_listener = EthTokenListener(self.web3, token_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.confirmation_updater = DatabaseConfirmationUpdater(self.web3, self.dbsession, self.asset_network_id, self.registry)
self.op_queue_manager = OperationQueueManager(self.web3, self.dbsession, self.asset_network_id, self.registry)
def run_listener_operations(self) -> Tuple[int, int]:
"""Return number of operations events read and handled."""
total_success = total_failure = 0
for func in (self.eth_wallet_listener.poll, self.eth_token_listener.poll):
success, failure = func()
total_success += success
total_failure += failure
return total_success, total_failure
def run_confirmation_updates(self) -> Tuple[int, int]:
return self.confirmation_updater.poll()
def run_waiting_operations(self) -> Tuple[int, int]:
"""Run all operations that are waiting to be executed.
:return: Number of operations (performed successfully, failed)
"""
return self.op_queue_manager.run_waiting_operations()
def update_heartbeat(self):
# Tell web interface we are still alive
block_number = self.web3.eth.blockNumber
block = self.web3.eth.getBlock(block_number)
block_time = int(block["timestamp"])
update_heart_beat(self.dbsession, self.asset_network_id, block_number, block_time)
def run_event_cycle(self, cycle_num=None) -> Tuple[int, int]:
"""Run full event cycle for all operations."""
total_success = total_failure = 0
for func in (self.run_waiting_operations, self.run_listener_operations, self.run_confirmation_updates):
# Make sure all transactions are closed before and after running ops
# logger.info("Running %s", func)
ensure_transactionless("TX management Error. Starting to process {} in event cycle {}".format(func, cycle_num))
success, failure = func()
ensure_transactionless()
total_success += success
total_failure += failure
self.update_heartbeat()
return total_success, total_failure
class EthereumService:
"""Ethereum service takes care of synchronizing operations between internal database and Ethereum daemon.
We take a simple approach where we have one service / db running one single thread which does all operations serial manner.
When testing, we call functions directly.
"""
def __init__(self, web3: Web3, asset_network_id: UUID, dbsession: Session, registry: Registry):
assert isinstance(web3, Web3)
assert isinstance(registry, Registry)
self.web3 = web3
self.asset_network_id = asset_network_id
self.dbsession = dbsession
self.registry = registry
self.setup_listeners()
def get_withdraw_required_confirmation_count(self):
"""How many confirmations we check on withdraw ops until we mark them confirmed."""
return 1
def setup_listeners(self):
"""Setup subsystems that scan for incoming events from geth."""
wallet_contract = HostedWallet.contract_class(self.web3)
token_contract = Token.contract_class(self.web3)
self.eth_wallet_listener = EthWalletListener(self.web3, wallet_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.eth_token_listener = EthTokenListener(self.web3, token_contract, self.dbsession, self.asset_network_id, registry=self.registry)
self.confirmation_updater = DatabaseConfirmationUpdater(self.web3, self.dbsession, self.asset_network_id, self.registry)
self.op_queue_manager = OperationQueueManager(self.web3, self.dbsession, self.asset_network_id, self.registry)
def run_listener_operations(self) -> Tuple[int, int]:
"""Return number of operations events read and handled."""
total_success = total_failure = 0
for func in (self.eth_wallet_listener.poll, self.eth_token_listener.poll):
success, failure = func()
total_success += success
total_failure += failure
return total_success, total_failure
def run_confirmation_updates(self) -> Tuple[int, int]:
return self.confirmation_updater.poll()
def run_waiting_operations(self) -> Tuple[int, int]:
"""Run all operations that are waiting to be executed.
:return: Number of operations (performed successfully, failed)
"""
return self.op_queue_manager.run_waiting_operations()
def update_heartbeat(self):
# Tell web interface we are still alive
block_number = self.web3.eth.blockNumber
block = self.web3.eth.getBlock(block_number)
block_time = int(block["timestamp"])
update_heart_beat(self.dbsession, self.asset_network_id, block_number, block_time)
def run_event_cycle(self, cycle_num=None) -> Tuple[int, int]:
"""Run full event cycle for all operations."""
total_success = total_failure = 0
for func in (self.run_waiting_operations, self.run_listener_operations, self.run_confirmation_updates):
# Make sure all transactions are closed before and after running ops
# logger.info("Running %s", func)
ensure_transactionless("TX management Error. Starting to process {} in event cycle {}".format(func, cycle_num))
success, failure = func()
ensure_transactionless()
total_success += success
total_failure += failure
self.update_heartbeat()
return total_success, total_failure
