Exemplo n.º 1
0
def context(ms_database: Database):
    return Context(
        ms_state=ms_database.load_state(),
        db=ms_database,
        w3=Mock(),
        last_known_block=0,
        monitoring_service_contract=Mock(),
        user_deposit_contract=Mock(),
        min_reward=1,
    )
Exemplo n.º 2
0
def context(ms_database: Database):
    return Context(
        ms_state=ms_database.load_state(),
        database=ms_database,
        web3=Web3Mock(),
        monitoring_service_contract=Mock(),
        user_deposit_contract=Mock(),
        min_reward=1,
        required_confirmations=1,
    )
Exemplo n.º 3
0
class MonitoringService:
    # pylint: disable=too-few-public-methods,too-many-instance-attributes
    def __init__(  # pylint: disable=too-many-arguments
        self,
        web3: Web3,
        private_key: PrivateKey,
        db_filename: str,
        contracts: Dict[str, Contract],
        sync_start_block: BlockNumber,
        required_confirmations: BlockTimeout,
        poll_interval: float,
        min_reward: int = 0,
    ):
        self.web3 = web3
        self.chain_id = ChainID(web3.eth.chainId)
        self.private_key = private_key
        self.address = private_key_to_address(private_key)
        self.poll_interval = poll_interval
        self.service_registry = contracts[CONTRACT_SERVICE_REGISTRY]
        self.token_network_registry = contracts[
            CONTRACT_TOKEN_NETWORK_REGISTRY]

        web3.middleware_onion.add(
            construct_sign_and_send_raw_middleware(private_key))

        monitoring_contract = contracts[CONTRACT_MONITORING_SERVICE]
        user_deposit_contract = contracts[CONTRACT_USER_DEPOSIT]

        self.database = Database(
            filename=db_filename,
            chain_id=self.chain_id,
            registry_address=to_canonical_address(
                self.token_network_registry.address),
            receiver=self.address,
            msc_address=MonitoringServiceAddress(
                to_canonical_address(monitoring_contract.address)),
            sync_start_block=sync_start_block,
        )
        ms_state = self.database.load_state()

        self.context = Context(
            ms_state=ms_state,
            database=self.database,
            web3=self.web3,
            monitoring_service_contract=monitoring_contract,
            user_deposit_contract=user_deposit_contract,
            min_reward=min_reward,
            required_confirmations=required_confirmations,
        )

    def start(self) -> None:
        if not self.service_registry.functions.hasValidRegistration(
                self.address).call():
            log.error("No valid registration in ServiceRegistry",
                      address=self.address)
            sys.exit(1)

        last_gas_check_block = 0
        while True:
            last_confirmed_block = self.context.latest_confirmed_block

            # check gas reserve
            do_gas_reserve_check = (
                last_confirmed_block >=
                last_gas_check_block + DEFAULT_GAS_CHECK_BLOCKS)
            if do_gas_reserve_check:
                check_gas_reserve(self.web3, self.private_key)
                last_gas_check_block = last_confirmed_block

            self._process_new_blocks(
                latest_confirmed_block=last_confirmed_block)
            self._trigger_scheduled_events()
            self._check_pending_transactions()
            self._purge_old_monitor_requests()

            gevent.sleep(self.poll_interval)

    def _process_new_blocks(self, latest_confirmed_block: BlockNumber) -> None:
        token_network_addresses = self.context.database.get_token_network_addresses(
        )

        events = get_blockchain_events_adaptive(
            web3=self.web3,
            blockchain_state=self.context.ms_state.blockchain_state,
            token_network_addresses=token_network_addresses,
            latest_confirmed_block=latest_confirmed_block,
        )

        if events is None:
            return

        for event in events:
            handle_event(event, self.context)

    def _trigger_scheduled_events(self) -> None:
        """Trigger scheduled events

        Here `latest_block` is used instead of `latest_confirmed_block`, because triggered
        events only rely on block number, and not on certain events that might change during
        a chain reorg.
        """
        triggered_events = self.context.database.get_scheduled_events(
            max_trigger_block=self.context.get_latest_unconfirmed_block())
        for scheduled_event in triggered_events:
            event = scheduled_event.event

            handle_event(event, self.context)
            self.context.database.remove_scheduled_event(scheduled_event)

    def _check_pending_transactions(self) -> None:
        """Checks if pending transaction have been mined and confirmed.

        This is done here so we don't have to block waiting for receipts in the state machine.

        In theory it's not necessary to check all pending transactions, but only the one with the
        smallest nonce, and continue from there when this one is mined and confirmed. However,
        as it is not expected that this list becomes to big this isn't optimized currently.
        """
        for tx_hash in self.context.database.get_waiting_transactions():
            try:
                receipt = self.web3.eth.getTransactionReceipt(Hash32(tx_hash))
            except TransactionNotFound:
                continue

            tx_block = receipt.get("blockNumber")
            if tx_block is None:
                continue

            confirmation_block = tx_block + self.context.required_confirmations
            if self.web3.eth.blockNumber < confirmation_block:
                continue

            self.context.database.remove_waiting_transaction(tx_hash)
            if receipt["status"] == 1:
                log.info(
                    "Transaction was mined successfully",
                    transaction_hash=tx_hash,
                    receipt=receipt,
                )
            else:
                log.error(
                    "Transaction was not mined successfully",
                    transaction_hash=tx_hash,
                    receipt=receipt,
                )

    def _purge_old_monitor_requests(self) -> None:
        """Delete all old MRs for which still no channel exists.

        Also marks all MRs which have a channel as not waiting_for_channel to
        avoid checking them again, every time.
        """
        with self.context.database.conn:
            self.context.database.conn.execute("""
                UPDATE monitor_request SET waiting_for_channel = 0
                WHERE waiting_for_channel
                  AND EXISTS (
                    SELECT 1
                    FROM channel
                    WHERE channel.identifier = monitor_request.channel_identifier
                      AND channel.token_network_address = monitor_request.token_network_address
                  )
            """)
            before_this_is_old = datetime.utcnow() - KEEP_MRS_WITHOUT_CHANNEL
            self.context.database.conn.execute(
                """
                DELETE FROM monitor_request
                WHERE waiting_for_channel
                  AND saved_at < ?
            """,
                [before_this_is_old],
            )
Exemplo n.º 4
0
class MonitoringService:  # pylint: disable=too-few-public-methods,too-many-instance-attributes
    def __init__(  # pylint: disable=too-many-arguments
        self,
        web3: Web3,
        private_key: str,
        db_filename: str,
        contracts: Dict[str, Contract],
        sync_start_block: BlockNumber = BlockNumber(0),
        required_confirmations: int = DEFAULT_NUMBER_OF_BLOCK_CONFIRMATIONS,
        poll_interval: float = 1,
        min_reward: int = 0,
    ):
        self.web3 = web3
        self.private_key = private_key
        self.address = private_key_to_address(private_key)
        self.required_confirmations = required_confirmations
        self.poll_interval = poll_interval
        self.service_registry = contracts[CONTRACT_SERVICE_REGISTRY]

        web3.middleware_stack.add(
            construct_sign_and_send_raw_middleware(private_key))

        monitoring_contract = contracts[CONTRACT_MONITORING_SERVICE]
        user_deposit_contract = contracts[CONTRACT_USER_DEPOSIT]

        chain_id = ChainID(int(web3.net.version))
        self.database = Database(
            filename=db_filename,
            chain_id=chain_id,
            registry_address=contracts[CONTRACT_TOKEN_NETWORK_REGISTRY].
            address,
            receiver=self.address,
            msc_address=monitoring_contract.address,
            sync_start_block=sync_start_block,
        )
        ms_state = self.database.load_state()

        self.context = Context(
            ms_state=ms_state,
            db=self.database,
            web3=self.web3,
            monitoring_service_contract=monitoring_contract,
            user_deposit_contract=user_deposit_contract,
            min_reward=min_reward,
            required_confirmations=required_confirmations,
        )

    def start(self,
              wait_function: Callable = time.sleep,
              check_account_gas_reserve: bool = True) -> None:
        if not self.service_registry.functions.hasValidRegistration(
                self.address).call():
            log.error("No valid registration in ServiceRegistry",
                      address=self.address)
            exit(1)

        last_gas_check_block = 0
        while True:
            last_confirmed_block = self.context.latest_confirmed_block

            # check gas reserve
            do_gas_reserve_check = (
                check_account_gas_reserve and last_confirmed_block >=
                last_gas_check_block + DEFAULT_GAS_CHECK_BLOCKS)
            if do_gas_reserve_check:
                check_gas_reserve(self.web3, self.private_key)
                last_gas_check_block = last_confirmed_block

            max_query_interval_end_block = (
                self.context.ms_state.blockchain_state.latest_commited_block +
                MAX_FILTER_INTERVAL)
            # Limit the max number of blocks that is processed per iteration
            last_block = BlockNumber(
                min(last_confirmed_block, max_query_interval_end_block))

            self._process_new_blocks(last_block)
            self._check_pending_transactions()
            self._purge_old_monitor_requests()

            try:
                wait_function(self.poll_interval)
            except KeyboardInterrupt:
                log.info("Shutting down")
                sys.exit(0)

    def _process_new_blocks(self, last_block: BlockNumber) -> None:
        # BCL return a new state and events related to channel lifecycle
        new_chain_state, events = get_blockchain_events(
            web3=self.web3,
            contract_manager=CONTRACT_MANAGER,
            chain_state=self.context.ms_state.blockchain_state,
            to_block=last_block,
        )

        # If a new token network was found we need to write it to the DB, otherwise
        # the constraints for new channels will not be constrained. But only update
        # the network addresses here, all else is done later.
        token_networks_changed = (
            self.context.ms_state.blockchain_state.token_network_addresses !=
            new_chain_state.token_network_addresses)
        if token_networks_changed:
            self.context.ms_state.blockchain_state.token_network_addresses = (
                new_chain_state.token_network_addresses)
            self.context.db.update_blockchain_state(
                self.context.ms_state.blockchain_state)

        # Now set the updated chain state to the context, will be stored later
        self.context.ms_state.blockchain_state = new_chain_state
        for event in events:
            handle_event(event, self.context)

        # check triggered events and trigger the correct ones
        triggered_events = self.context.db.get_scheduled_events(
            max_trigger_block=last_block)
        for scheduled_event in triggered_events:
            event = scheduled_event.event

            handle_event(event, self.context)
            self.context.db.remove_scheduled_event(scheduled_event)

    def _check_pending_transactions(self) -> None:
        """ Checks if pending transaction have been mined and confirmed.

        This is done here so we don't have to block waiting for receipts in the state machine.

        In theory it's not necessary to check all pending transactions, but only the one with the
        smallest nonce, and continue from there when this one is mined and confirmed. However,
        as it is not expected that this list becomes to big this isn't optimized currently.
        """
        for tx_hash in self.context.db.get_waiting_transactions():
            receipt = self.web3.eth.getTransactionReceipt(tx_hash)
            if receipt is None:
                continue

            tx_block = receipt.get("blockNumber")
            if tx_block is None:
                continue

            confirmation_block = tx_block + self.context.required_confirmations
            if self.web3.eth.blockNumber < confirmation_block:
                continue

            self.context.db.remove_waiting_transaction(tx_hash)
            if receipt["status"] == 1:
                log.info("Transaction was mined successfully",
                         transaction_hash=tx_hash,
                         receipt=receipt)
            else:
                log.error(
                    "Transaction was not mined successfully",
                    transaction_hash=tx_hash,
                    receipt=receipt,
                )

    def _purge_old_monitor_requests(self) -> None:
        """ Delete all old MRs for which still no channel exists.

        Also marks all MRs which have a channel as not waiting_for_channel to
        avoid checking them again, every time.
        """
        with self.context.db.conn:
            self.context.db.conn.execute("""
                UPDATE monitor_request SET waiting_for_channel = 0
                WHERE waiting_for_channel
                  AND EXISTS (
                    SELECT 1
                    FROM channel
                    WHERE channel.identifier = monitor_request.channel_identifier
                      AND channel.token_network_address = monitor_request.token_network_address
                  )
            """)
            before_this_is_old = datetime.utcnow() - KEEP_MRS_WITHOUT_CHANNEL
            self.context.db.conn.execute(
                """
                DELETE FROM monitor_request
                WHERE waiting_for_channel
                  AND saved_at < ?
            """,
                [before_this_is_old],
            )
Exemplo n.º 5
0
class MonitoringService:  # pylint: disable=too-few-public-methods
    def __init__(
        self,
        web3: Web3,
        private_key: str,
        db_filename: str,
        contracts: Dict[str, Contract],
        sync_start_block: BlockNumber = BlockNumber(0),
        required_confirmations: int = DEFAULT_REQUIRED_CONFIRMATIONS,
        poll_interval: float = 1,
        min_reward: int = 0,
    ):
        self.web3 = web3
        self.private_key = private_key
        self.address = private_key_to_address(private_key)
        self.required_confirmations = required_confirmations
        self.poll_interval = poll_interval
        self.last_gas_check_block = 0

        web3.middleware_stack.add(construct_sign_and_send_raw_middleware(private_key))

        monitoring_contract = contracts[CONTRACT_MONITORING_SERVICE]
        user_deposit_contract = contracts[CONTRACT_USER_DEPOSIT]

        chain_id = int(web3.net.version)
        self.database = Database(
            filename=db_filename,
            chain_id=chain_id,
            registry_address=contracts[CONTRACT_TOKEN_NETWORK_REGISTRY].address,
            receiver=self.address,
            msc_address=monitoring_contract.address,
            sync_start_block=sync_start_block,
        )
        ms_state = self.database.load_state()

        self.context = Context(
            ms_state=ms_state,
            db=self.database,
            w3=self.web3,
            contract_manager=CONTRACT_MANAGER,
            last_known_block=0,
            monitoring_service_contract=monitoring_contract,
            user_deposit_contract=user_deposit_contract,
            min_reward=min_reward,
        )

    def start(
        self, wait_function: Callable = time.sleep, check_account_gas_reserve: bool = True
    ) -> None:
        while True:
            last_confirmed_block = self.web3.eth.blockNumber - self.required_confirmations

            # check gas reserve
            do_gas_reserve_check = (
                check_account_gas_reserve
                and last_confirmed_block >= self.last_gas_check_block + DEFAULT_GAS_CHECK_BLOCKS
            )
            if do_gas_reserve_check:
                check_gas_reserve(self.web3, self.private_key)
                self.last_gas_check_block = last_confirmed_block

            max_query_interval_end_block = (
                self.context.ms_state.blockchain_state.latest_known_block + MAX_FILTER_INTERVAL
            )
            # Limit the max number of blocks that is processed per iteration
            last_block = min(last_confirmed_block, max_query_interval_end_block)

            self._process_new_blocks(last_block)

            try:
                wait_function(self.poll_interval)
            except KeyboardInterrupt:
                log.info("Shutting down")
                sys.exit(0)

    def _process_new_blocks(self, last_block: BlockNumber) -> None:
        self.context.last_known_block = last_block

        # BCL return a new state and events related to channel lifecycle
        new_chain_state, events = get_blockchain_events(
            web3=self.web3,
            contract_manager=CONTRACT_MANAGER,
            chain_state=self.context.ms_state.blockchain_state,
            to_block=last_block,
        )

        # If a new token network was found we need to write it to the DB, otherwise
        # the constraints for new channels will not be constrained. But only update
        # the network addresses here, all else is done later.
        token_networks_changed = (
            self.context.ms_state.blockchain_state.token_network_addresses
            != new_chain_state.token_network_addresses
        )
        if token_networks_changed:
            self.context.ms_state.blockchain_state.token_network_addresses = (
                new_chain_state.token_network_addresses
            )
            self.context.db.update_blockchain_state(self.context.ms_state.blockchain_state)

        # Now set the updated chain state to the context, will be stored later
        self.context.ms_state.blockchain_state = new_chain_state
        for event in events:
            handle_event(event, self.context)

        # check triggered events and trigger the correct ones
        triggered_events = self.context.db.get_scheduled_events(max_trigger_block=last_block)
        for scheduled_event in triggered_events:
            event = scheduled_event.event

            handle_event(event, self.context)
            self.context.db.remove_scheduled_event(scheduled_event)

        # check pending transactions
        # this is done here so we don't have to block waiting for receipts in the state machine
        for tx_hash in self.context.db.get_waiting_transactions():
            receipt = self.web3.eth.getTransactionReceipt(tx_hash)

            if receipt is not None:
                self.context.db.remove_waiting_transaction(tx_hash)

                if receipt["status"] == 1:
                    log.info(
                        "Transaction was mined successfully",
                        transaction_hash=tx_hash,
                        receipt=receipt,
                    )
                else:
                    log.error(
                        "Transaction was not mined successfully",
                        transaction_hash=tx_hash,
                        receipt=receipt,
                    )