class ZrxMarketMakerKeeper: """Keeper acting as a market maker on any 0x exchange implementing the Standard 0x Relayer API V0.""" logger = logging.getLogger() def __init__(self, args: list, **kwargs): parser = argparse.ArgumentParser(prog='0x-market-maker-keeper') parser.add_argument("--rpc-host", type=str, default="localhost", help="JSON-RPC host (default: `localhost')") parser.add_argument("--rpc-port", type=int, default=8545, help="JSON-RPC port (default: `8545')") parser.add_argument("--rpc-timeout", type=int, default=10, help="JSON-RPC timeout (in seconds, default: 10)") parser.add_argument( "--eth-from", type=str, required=True, help="Ethereum account from which to send transactions") parser.add_argument( "--exchange-address", type=str, required=True, help="Ethereum address of the 0x Exchange contract") parser.add_argument("--relayer-api-server", type=str, required=True, help="Address of the 0x Relayer API") parser.add_argument( "--relayer-per-page", type=int, default=100, help= "Number of orders to fetch per one page from the 0x Relayer API (default: 100)" ) parser.add_argument("--buy-token-address", type=str, required=True, help="Ethereum address of the buy token") parser.add_argument("--sell-token-address", type=str, required=True, help="Ethereum address of the sell token") parser.add_argument("--config", type=str, required=True, help="Bands configuration file") parser.add_argument("--price-feed", type=str, required=True, help="Source of price feed") parser.add_argument( "--price-feed-expiry", type=int, default=120, help="Maximum age of the price feed (in seconds, default: 120)") parser.add_argument("--spread-feed", type=str, help="Source of spread feed") parser.add_argument( "--spread-feed-expiry", type=int, default=3600, help="Maximum age of the spread feed (in seconds, default: 3600)") parser.add_argument( "--order-expiry", type=int, required=True, help="Expiration time of created orders (in seconds)") parser.add_argument( "--order-expiry-threshold", type=int, default=0, help= "How long before order expiration it is considered already expired (in seconds)" ) parser.add_argument( "--min-eth-balance", type=float, default=0, help="Minimum ETH balance below which keeper will cease operation") parser.add_argument( '--cancel-on-shutdown', dest='cancel_on_shutdown', action='store_true', help="Whether should cancel all open orders on keeper shutdown") parser.add_argument("--gas-price", type=int, default=0, help="Gas price (in Wei)") parser.add_argument( "--smart-gas-price", dest='smart_gas_price', action='store_true', help= "Use smart gas pricing strategy, based on the ethgasstation.info feed" ) parser.add_argument("--debug", dest='debug', action='store_true', help="Enable debug output") self.arguments = parser.parse_args(args) setup_logging(self.arguments) self.web3 = kwargs['web3'] if 'web3' in kwargs else Web3( HTTPProvider( endpoint_uri= f"http://{self.arguments.rpc_host}:{self.arguments.rpc_port}", request_kwargs={"timeout": self.arguments.rpc_timeout})) self.web3.eth.defaultAccount = self.arguments.eth_from self.our_address = Address(self.arguments.eth_from) self.token_buy = ERC20Token(web3=self.web3, address=Address( self.arguments.buy_token_address)) self.token_sell = ERC20Token(web3=self.web3, address=Address( self.arguments.sell_token_address)) self.min_eth_balance = Wad.from_number(self.arguments.min_eth_balance) self.bands_config = ReloadableConfig(self.arguments.config) self.gas_price = GasPriceFactory().create_gas_price(self.arguments) self.price_feed = PriceFeedFactory().create_price_feed(self.arguments) self.spread_feed = create_spread_feed(self.arguments) self.history = History() self.zrx_exchange = ZrxExchange(web3=self.web3, address=Address( self.arguments.exchange_address)) self.zrx_relayer_api = ZrxRelayerApi( exchange=self.zrx_exchange, api_server=self.arguments.relayer_api_server) self.placed_orders = [] def main(self): with Lifecycle(self.web3) as lifecycle: lifecycle.initial_delay(10) lifecycle.on_startup(self.startup) lifecycle.every(15, self.synchronize_orders) lifecycle.on_shutdown(self.shutdown) def startup(self): self.approve() @retry(delay=5, logger=logger) def shutdown(self): if self.arguments.cancel_on_shutdown: self.cancel_orders(self.our_orders()) def approve(self): self.zrx_exchange.approve([self.token_sell, self.token_buy], directly(gas_price=self.gas_price)) def our_total_balance(self, token: ERC20Token) -> Wad: return token.balance_of(self.our_address) def our_orders(self) -> list: api_orders = self.zrx_relayer_api.get_orders_by_maker( self.our_address, self.arguments.relayer_per_page) all_orders = list(set(self.placed_orders + api_orders)) return self.remove_old_orders(all_orders) def remove_old_orders(self, orders: list) -> list: current_timestamp = int(time.time()) orders = list( filter( lambda order: order.expiration > current_timestamp - self. arguments.order_expiry_threshold, orders)) orders = list( filter( lambda order: self.zrx_exchange.get_unavailable_buy_amount( order) < order.buy_amount, orders)) return orders def our_sell_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.token_buy.address and order.pay_token == self.token_sell.address, our_orders)) def our_buy_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.token_sell.address and order.pay_token == self.token_buy.address, our_orders)) def synchronize_orders(self): if eth_balance(self.web3, self.our_address) < self.min_eth_balance: self.logger.warning( "Keeper ETH balance below minimum. Cancelling all orders.") self.cancel_orders(self.our_orders()) return bands = Bands(self.bands_config, self.spread_feed, self.history) our_orders = self.our_orders() target_price = self.price_feed.get_price() # Cancel orders cancellable_orders = bands.cancellable_orders( our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), target_price=target_price) if len(cancellable_orders) > 0: self.cancel_orders(cancellable_orders) return # Balances returned by `our_total_balance` still contain amounts "locked" # by currently open orders, so we need to explicitly subtract these amounts. our_buy_balance = self.our_total_balance( self.token_buy) - Bands.total_amount( self.our_buy_orders(our_orders)) our_sell_balance = self.our_total_balance( self.token_sell) - Bands.total_amount( self.our_sell_orders(our_orders)) # Place new orders self.place_orders( bands.new_orders(our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), our_buy_balance=our_buy_balance, our_sell_balance=our_sell_balance, target_price=target_price)[0]) def cancel_orders(self, orders): synchronize([ self.zrx_exchange.cancel_order(order).transact_async( gas_price=self.gas_price) for order in orders ]) def place_orders(self, new_orders): for new_order in new_orders: pay_token = self.token_sell if new_order.is_sell else self.token_buy buy_token = self.token_buy if new_order.is_sell else self.token_sell zrx_order = self.zrx_exchange.create_order( pay_token=pay_token.address, pay_amount=new_order.pay_amount, buy_token=buy_token.address, buy_amount=new_order.buy_amount, expiration=int(time.time()) + self.arguments.order_expiry) zrx_order = self.zrx_relayer_api.calculate_fees(zrx_order) zrx_order = self.zrx_exchange.sign_order(zrx_order) if self.zrx_relayer_api.submit_order(zrx_order): self.placed_orders = self.remove_old_orders(self.placed_orders) self.placed_orders.append(zrx_order)
class RadarRelayMarketMakerKeeper: """Keeper acting as a market maker on RadarRelay, on the WETH/SAI pair.""" logger = logging.getLogger() def __init__(self, args: list, **kwargs): parser = argparse.ArgumentParser(prog='radarrelay-market-maker-keeper') parser.add_argument("--rpc-host", type=str, default="localhost", help="JSON-RPC host (default: `localhost')") parser.add_argument("--rpc-port", type=int, default=8545, help="JSON-RPC port (default: `8545')") parser.add_argument("--rpc-timeout", type=int, default=10, help="JSON-RPC timeout (in seconds, default: 10)") parser.add_argument( "--eth-from", type=str, required=True, help="Ethereum account from which to send transactions") parser.add_argument("--tub-address", type=str, required=True, help="Ethereum address of the Tub contract") parser.add_argument( "--exchange-address", type=str, required=True, help="Ethereum address of the 0x Exchange contract") parser.add_argument("--weth-address", type=str, required=True, help="Ethereum address of the WETH token") parser.add_argument("--relayer-api-server", type=str, required=True, help="Address of the 0x Relayer API") parser.add_argument("--config", type=str, required=True, help="Buy/sell bands configuration file") parser.add_argument( "--price-feed", type=str, help= "Source of price feed. Tub price feed will be used if not specified" ) parser.add_argument( "--price-feed-expiry", type=int, default=120, help="Maximum age of non-Tub price feed (in seconds, default: 120)" ) parser.add_argument( "--order-expiry", type=int, required=True, help="Expiration time of created orders (in seconds)") parser.add_argument( "--order-expiry-threshold", type=int, default=0, help= "Order expiration time at which order is considered already expired (in seconds)" ) parser.add_argument( "--min-eth-balance", type=float, default=0, help= "Minimum ETH balance below which keeper with either terminate or not start at all" ) parser.add_argument( '--cancel-on-shutdown', dest='cancel_on_shutdown', action='store_true', help= "Whether should cancel all open orders on RadarRelay on keeper shutdown" ) parser.add_argument("--gas-price", type=int, default=0, help="Gas price (in Wei)") parser.add_argument( "--gas-price-increase", type=int, help="Gas price increase (in Wei) if no confirmation within" " `--gas-price-increase-every` seconds") parser.add_argument( "--gas-price-increase-every", type=int, default=120, help="Gas price increase frequency (in seconds, default: 120)") parser.add_argument("--gas-price-max", type=int, help="Maximum gas price (in Wei)") parser.add_argument("--gas-price-file", type=str, help="Gas price configuration file") parser.add_argument( "--smart-gas-price", dest='smart_gas_price', action='store_true', help= "Use smart gas pricing strategy, based on the ethgasstation.info feed" ) parser.add_argument("--debug", dest='debug', action='store_true', help="Enable debug output") self.arguments = parser.parse_args(args) self.web3 = kwargs['web3'] if 'web3' in kwargs else Web3( HTTPProvider( endpoint_uri= f"http://{self.arguments.rpc_host}:{self.arguments.rpc_port}", request_kwargs={"timeout": self.arguments.rpc_timeout})) self.web3.eth.defaultAccount = self.arguments.eth_from self.our_address = Address(self.arguments.eth_from) self.tub = Tub(web3=self.web3, address=Address(self.arguments.tub_address)) self.vox = Vox(web3=self.web3, address=self.tub.vox()) self.sai = ERC20Token(web3=self.web3, address=self.tub.sai()) self.ether_token = ERC20Token(web3=self.web3, address=Address( self.arguments.weth_address)) logging.basicConfig( format='%(asctime)-15s %(levelname)-8s %(message)s', level=(logging.DEBUG if self.arguments.debug else logging.INFO)) logging.getLogger('urllib3.connectionpool').setLevel(logging.INFO) logging.getLogger('requests.packages.urllib3.connectionpool').setLevel( logging.INFO) self.min_eth_balance = Wad.from_number(self.arguments.min_eth_balance) self.bands_config = ReloadableConfig(self.arguments.config) self.gas_price = GasPriceFactory().create_gas_price(self.arguments) self.price_feed = PriceFeedFactory().create_price_feed( self.arguments.price_feed, self.arguments.price_feed_expiry, self.tub, self.vox) self.radar_relay = ZrxExchange(web3=self.web3, address=Address( self.arguments.exchange_address)) self.radar_relay_api = ZrxRelayerApi( exchange=self.radar_relay, api_server=self.arguments.relayer_api_server) def main(self): with Lifecycle(self.web3) as lifecycle: lifecycle.initial_delay(10) lifecycle.on_startup(self.startup) lifecycle.every(15, self.synchronize_orders) lifecycle.on_shutdown(self.shutdown) def startup(self): self.approve() @retry(delay=5, logger=logger) def shutdown(self): if self.arguments.cancel_on_shutdown: self.cancel_orders(self.our_orders()) def approve(self): """Approve 0x to access our tokens, so we can sell it on the exchange.""" self.radar_relay.approve( [self.token_sell(), self.token_buy()], directly(gas_price=self.gas_price)) def price(self) -> Wad: return self.price_feed.get_price() def token_sell(self) -> ERC20Token: return self.ether_token def token_buy(self) -> ERC20Token: return self.sai def our_balance(self, token: ERC20Token) -> Wad: return token.balance_of(self.our_address) def our_orders(self) -> list: our_orders = self.radar_relay_api.get_orders_by_maker(self.our_address) current_timestamp = int(time.time()) our_orders = list( filter( lambda order: order.expiration > current_timestamp - self. arguments.order_expiry_threshold, our_orders)) our_orders = list( filter( lambda order: self.radar_relay.get_unavailable_buy_amount( order) < order.buy_amount, our_orders)) return our_orders def our_sell_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.token_buy().address and order.pay_token == self.token_sell().address, our_orders)) def our_buy_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.token_sell().address and order.pay_token == self.token_buy().address, our_orders)) def synchronize_orders(self): """Update our positions in the order book to reflect keeper parameters.""" if eth_balance(self.web3, self.our_address) < self.min_eth_balance: self.logger.warning( "Keeper ETH balance below minimum. Cancelling all orders.") self.cancel_orders(self.our_orders()) return bands = Bands(self.bands_config) our_orders = self.our_orders() target_price = self.price() if target_price is None: self.logger.warning( "Cancelling all orders as no price feed available.") self.cancel_orders(our_orders) return # Cancel orders cancellable_orders = bands.cancellable_orders( our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), target_price=target_price) if len(cancellable_orders) > 0: self.cancel_orders(cancellable_orders) return # Place new orders self.create_orders( bands.new_orders( our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), our_buy_balance=self.our_balance(self.token_buy()), our_sell_balance=self.our_balance(self.token_sell()), target_price=target_price)) def cancel_orders(self, orders): """Cancel orders asynchronously.""" synchronize([ self.radar_relay.cancel_order(order).transact_async( gas_price=self.gas_price) for order in orders ]) def create_orders(self, orders): """Create and submit orders synchronously.""" for order in orders: pay_token = self.token_sell() if order.is_sell else self.token_buy( ) buy_token = self.token_buy() if order.is_sell else self.token_sell( ) order = self.radar_relay.create_order(pay_token=pay_token.address, pay_amount=order.pay_amount, buy_token=buy_token.address, buy_amount=order.buy_amount, expiration=int(time.time()) + self.arguments.order_expiry) order = self.radar_relay_api.calculate_fees(order) order = self.radar_relay.sign_order(order) self.radar_relay_api.submit_order(order)
class ZrxMarketMakerKeeper: """Keeper acting as a market maker on any 0x exchange implementing the Standard 0x Relayer API V0.""" logger = logging.getLogger() def __init__(self, args: list, **kwargs): parser = argparse.ArgumentParser(prog='0x-market-maker-keeper') parser.add_argument("--rpc-host", type=str, default="localhost", help="JSON-RPC host (default: `localhost')") parser.add_argument("--rpc-port", type=int, default=8545, help="JSON-RPC port (default: `8545')") parser.add_argument("--rpc-timeout", type=int, default=10, help="JSON-RPC timeout (in seconds, default: 10)") parser.add_argument("--eth-from", type=str, required=True, help="Ethereum account from which to send transactions") parser.add_argument("--exchange-address", type=str, required=True, help="Ethereum address of the 0x Exchange contract") parser.add_argument("--relayer-api-server", type=str, required=True, help="Address of the 0x Relayer API") parser.add_argument("--relayer-per-page", type=int, default=100, help="Number of orders to fetch per one page from the 0x Relayer API (default: 100)") parser.add_argument("--buy-token-address", type=str, required=True, help="Ethereum address of the buy token") parser.add_argument("--sell-token-address", type=str, required=True, help="Ethereum address of the sell token") parser.add_argument("--config", type=str, required=True, help="Bands configuration file") parser.add_argument("--price-feed", type=str, required=True, help="Source of price feed") parser.add_argument("--price-feed-expiry", type=int, default=120, help="Maximum age of the price feed (in seconds, default: 120)") parser.add_argument("--spread-feed", type=str, help="Source of spread feed") parser.add_argument("--spread-feed-expiry", type=int, default=3600, help="Maximum age of the spread feed (in seconds, default: 3600)") parser.add_argument("--order-history", type=str, help="Endpoint to report active orders to") parser.add_argument("--order-history-every", type=int, default=30, help="Frequency of reporting active orders (in seconds, default: 30)") parser.add_argument("--order-expiry", type=int, required=True, help="Expiration time of created orders (in seconds)") parser.add_argument("--order-expiry-threshold", type=int, default=0, help="How long before order expiration it is considered already expired (in seconds)") parser.add_argument("--min-eth-balance", type=float, default=0, help="Minimum ETH balance below which keeper will cease operation") parser.add_argument('--cancel-on-shutdown', dest='cancel_on_shutdown', action='store_true', help="Whether should cancel all open orders on keeper shutdown") parser.add_argument("--gas-price", type=int, default=0, help="Gas price (in Wei)") parser.add_argument("--smart-gas-price", dest='smart_gas_price', action='store_true', help="Use smart gas pricing strategy, based on the ethgasstation.info feed") parser.add_argument("--debug", dest='debug', action='store_true', help="Enable debug output") self.arguments = parser.parse_args(args) setup_logging(self.arguments) self.web3 = kwargs['web3'] if 'web3' in kwargs else Web3(HTTPProvider(endpoint_uri=f"http://{self.arguments.rpc_host}:{self.arguments.rpc_port}", request_kwargs={"timeout": self.arguments.rpc_timeout})) self.web3.eth.defaultAccount = self.arguments.eth_from self.our_address = Address(self.arguments.eth_from) self.token_buy = ERC20Token(web3=self.web3, address=Address(self.arguments.buy_token_address)) self.token_sell = ERC20Token(web3=self.web3, address=Address(self.arguments.sell_token_address)) self.min_eth_balance = Wad.from_number(self.arguments.min_eth_balance) self.bands_config = ReloadableConfig(self.arguments.config) self.gas_price = GasPriceFactory().create_gas_price(self.arguments) self.price_feed = PriceFeedFactory().create_price_feed(self.arguments) self.spread_feed = create_spread_feed(self.arguments) self.order_history_reporter = create_order_history_reporter(self.arguments) self.history = History() self.zrx_exchange = ZrxExchange(web3=self.web3, address=Address(self.arguments.exchange_address)) self.zrx_relayer_api = ZrxRelayerApi(exchange=self.zrx_exchange, api_server=self.arguments.relayer_api_server) self.placed_orders = [] def main(self): with Lifecycle(self.web3) as lifecycle: lifecycle.initial_delay(10) lifecycle.on_startup(self.startup) lifecycle.every(15, self.synchronize_orders) lifecycle.on_shutdown(self.shutdown) def startup(self): self.approve() @retry(delay=5, logger=logger) def shutdown(self): if self.arguments.cancel_on_shutdown: self.cancel_orders(self.our_orders()) def approve(self): self.zrx_exchange.approve([self.token_sell, self.token_buy], directly(gas_price=self.gas_price)) def our_total_balance(self, token: ERC20Token) -> Wad: return token.balance_of(self.our_address) def our_orders(self) -> list: api_orders = self.zrx_relayer_api.get_orders_by_maker(self.our_address, self.arguments.relayer_per_page) all_orders = list(set(self.placed_orders + api_orders)) return self.remove_old_orders(all_orders) def remove_old_orders(self, orders: list) -> list: current_timestamp = int(time.time()) orders = list(filter(lambda order: order.expiration > current_timestamp - self.arguments.order_expiry_threshold, orders)) orders = list(filter(lambda order: self.zrx_exchange.get_unavailable_buy_amount(order) < order.buy_amount, orders)) return orders def our_sell_orders(self, our_orders: list) -> list: return list(filter(lambda order: order.buy_token == self.token_buy.address and order.pay_token == self.token_sell.address, our_orders)) def our_buy_orders(self, our_orders: list) -> list: return list(filter(lambda order: order.buy_token == self.token_sell.address and order.pay_token == self.token_buy.address, our_orders)) def synchronize_orders(self): if eth_balance(self.web3, self.our_address) < self.min_eth_balance: self.logger.warning("Keeper ETH balance below minimum. Cancelling all orders.") self.cancel_orders(self.our_orders()) return bands = Bands(self.bands_config, self.spread_feed, self.history) our_orders = self.our_orders() target_price = self.price_feed.get_price() # Cancel orders cancellable_orders = bands.cancellable_orders(our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), target_price=target_price) if len(cancellable_orders) > 0: self.cancel_orders(cancellable_orders) return # Balances returned by `our_total_balance` still contain amounts "locked" # by currently open orders, so we need to explicitly subtract these amounts. our_buy_balance = self.our_total_balance(self.token_buy) - Bands.total_amount(self.our_buy_orders(our_orders)) our_sell_balance = self.our_total_balance(self.token_sell) - Bands.total_amount(self.our_sell_orders(our_orders)) # Place new orders self.place_orders(bands.new_orders(our_buy_orders=self.our_buy_orders(our_orders), our_sell_orders=self.our_sell_orders(our_orders), our_buy_balance=our_buy_balance, our_sell_balance=our_sell_balance, target_price=target_price)[0]) def cancel_orders(self, orders): synchronize([self.zrx_exchange.cancel_order(order).transact_async(gas_price=self.gas_price) for order in orders]) def place_orders(self, new_orders): for new_order in new_orders: pay_token = self.token_sell if new_order.is_sell else self.token_buy buy_token = self.token_buy if new_order.is_sell else self.token_sell zrx_order = self.zrx_exchange.create_order(pay_token=pay_token.address, pay_amount=new_order.pay_amount, buy_token=buy_token.address, buy_amount=new_order.buy_amount, expiration=int(time.time()) + self.arguments.order_expiry) zrx_order = self.zrx_relayer_api.calculate_fees(zrx_order) zrx_order = self.zrx_exchange.sign_order(zrx_order) if self.zrx_relayer_api.submit_order(zrx_order): self.placed_orders = self.remove_old_orders(self.placed_orders) self.placed_orders.append(zrx_order)
class ZrxMarketMakerKeeper: """Keeper acting as a market maker on any 0x exchange implementing the Standard 0x Relayer API V0.""" logger = logging.getLogger() def __init__(self, args: list, **kwargs): parser = argparse.ArgumentParser(prog='0x-market-maker-keeper') parser.add_argument("--rpc-host", type=str, default="localhost", help="JSON-RPC host (default: `localhost')") parser.add_argument("--rpc-port", type=int, default=8545, help="JSON-RPC port (default: `8545')") parser.add_argument("--rpc-timeout", type=int, default=10, help="JSON-RPC timeout (in seconds, default: 10)") parser.add_argument("--eth-from", type=str, required=True, help="Ethereum account from which to send transactions") parser.add_argument("--exchange-address", type=str, required=True, help="Ethereum address of the 0x Exchange contract") parser.add_argument("--relayer-api-server", type=str, required=True, help="Address of the 0x Relayer API") parser.add_argument("--relayer-per-page", type=int, default=100, help="Number of orders to fetch per one page from the 0x Relayer API (default: 100)") parser.add_argument("--buy-token-address", type=str, required=True, help="Ethereum address of the buy token") parser.add_argument("--buy-token-decimals", type=int, default=18, help="Number of decimals of the buy token") parser.add_argument("--sell-token-address", type=str, required=True, help="Ethereum address of the sell token") parser.add_argument("--sell-token-decimals", type=int, default=18, help="Number of decimals of the sell token") parser.add_argument("--config", type=str, required=True, help="Bands configuration file") parser.add_argument("--price-feed", type=str, required=True, help="Source of price feed") parser.add_argument("--price-feed-expiry", type=int, default=120, help="Maximum age of the price feed (in seconds, default: 120)") parser.add_argument("--spread-feed", type=str, help="Source of spread feed") parser.add_argument("--spread-feed-expiry", type=int, default=3600, help="Maximum age of the spread feed (in seconds, default: 3600)") parser.add_argument("--order-history", type=str, help="Endpoint to report active orders to") parser.add_argument("--order-history-every", type=int, default=30, help="Frequency of reporting active orders (in seconds, default: 30)") parser.add_argument("--order-expiry", type=int, required=True, help="Expiration time of created orders (in seconds)") parser.add_argument("--order-expiry-threshold", type=int, default=0, help="How long before order expiration it is considered already expired (in seconds)") parser.add_argument("--use-full-balances", dest='use_full_balances', action='store_true', help="Do not subtract the amounts locked by current orders from available balances") parser.add_argument("--min-eth-balance", type=float, default=0, help="Minimum ETH balance below which keeper will cease operation") parser.add_argument('--cancel-on-shutdown', dest='cancel_on_shutdown', action='store_true', help="Whether should cancel all open orders on keeper shutdown") parser.add_argument("--remember-own-orders", dest='remember_own_orders', action='store_true', help="Whether should the keeper remember his own submitted orders") parser.add_argument("--gas-price", type=int, default=0, help="Gas price (in Wei)") parser.add_argument("--smart-gas-price", dest='smart_gas_price', action='store_true', help="Use smart gas pricing strategy, based on the ethgasstation.info feed") parser.add_argument("--refresh-frequency", type=int, default=3, help="Order book refresh frequency (in seconds, default: 3)") parser.add_argument("--debug", dest='debug', action='store_true', help="Enable debug output") self.arguments = parser.parse_args(args) setup_logging(self.arguments) self.web3 = kwargs['web3'] if 'web3' in kwargs else Web3(HTTPProvider(endpoint_uri=f"http://{self.arguments.rpc_host}:{self.arguments.rpc_port}", request_kwargs={"timeout": self.arguments.rpc_timeout})) self.web3.eth.defaultAccount = self.arguments.eth_from self.our_address = Address(self.arguments.eth_from) self.min_eth_balance = Wad.from_number(self.arguments.min_eth_balance) self.bands_config = ReloadableConfig(self.arguments.config) self.gas_price = GasPriceFactory().create_gas_price(self.arguments) self.price_feed = PriceFeedFactory().create_price_feed(self.arguments) self.spread_feed = create_spread_feed(self.arguments) self.order_history_reporter = create_order_history_reporter(self.arguments) self.history = History() # Delegate 0x specific init to a function to permit overload for 0xv2 self.zrx_exchange = None self.zrx_relayer_api = None self.zrx_api = None self.pair = None self.init_zrx() self.placed_zrx_orders = [] self.placed_zrx_orders_lock = Lock() self.order_book_manager = OrderBookManager(refresh_frequency=self.arguments.refresh_frequency) self.order_book_manager.get_orders_with(lambda: self.get_orders()) self.order_book_manager.get_balances_with(lambda: self.get_balances()) self.order_book_manager.place_orders_with(self.place_order_function) self.order_book_manager.cancel_orders_with(self.cancel_order_function) self.order_book_manager.enable_history_reporting(self.order_history_reporter, self.our_buy_orders, self.our_sell_orders) self.order_book_manager.start() def init_zrx(self): self.zrx_exchange = ZrxExchange(web3=self.web3, address=Address(self.arguments.exchange_address)) self.zrx_relayer_api = ZrxRelayerApi(exchange=self.zrx_exchange, api_server=self.arguments.relayer_api_server) self.zrx_api = ZrxApi(zrx_exchange=self.zrx_exchange) self.pair = Pair(sell_token_address=Address(self.arguments.sell_token_address), sell_token_decimals=self.arguments.sell_token_decimals, buy_token_address=Address(self.arguments.buy_token_address), buy_token_decimals=self.arguments.buy_token_decimals) def main(self): with Lifecycle(self.web3) as lifecycle: lifecycle.initial_delay(10) lifecycle.on_startup(self.startup) lifecycle.every(1, self.synchronize_orders) lifecycle.on_shutdown(self.shutdown) def startup(self): self.approve() def shutdown(self): self.order_book_manager.cancel_all_orders(final_wait_time=60) def approve(self): token_buy = ERC20Token(web3=self.web3, address=Address(self.pair.buy_token_address)) token_sell = ERC20Token(web3=self.web3, address=Address(self.pair.sell_token_address)) self.zrx_exchange.approve([token_sell, token_buy], directly(gas_price=self.gas_price)) def remove_expired_orders(self, orders: list) -> list: current_timestamp = int(time.time()) return list(filter(lambda order: order.zrx_order.expiration > current_timestamp - self.arguments.order_expiry_threshold, orders)) def remove_expired_zrx_orders(self, zrx_orders: list) -> list: current_timestamp = int(time.time()) return list(filter(lambda order: order.expiration > current_timestamp - self.arguments.order_expiry_threshold, zrx_orders)) def remove_filled_or_cancelled_zrx_orders(self, zrx_orders: list) -> list: return list(filter(lambda order: self.zrx_exchange.get_unavailable_buy_amount(order) < order.buy_amount, zrx_orders)) def get_orders(self) -> list: def remove_old_zrx_orders(zrx_orders: list) -> list: return self.remove_filled_or_cancelled_zrx_orders(self.remove_expired_zrx_orders(zrx_orders)) with self.placed_zrx_orders_lock: self.placed_zrx_orders = remove_old_zrx_orders(self.placed_zrx_orders) api_zrx_orders = remove_old_zrx_orders(self.zrx_relayer_api.get_orders_by_maker(self.our_address, self.arguments.relayer_per_page)) with self.placed_zrx_orders_lock: zrx_orders = list(set(self.placed_zrx_orders + api_zrx_orders)) return self.zrx_api.get_orders(self.pair, zrx_orders) def get_balances(self): balances = self.zrx_api.get_balances(self.pair) return balances[0], balances[1], eth_balance(self.web3, self.our_address) def our_total_sell_balance(self, balances) -> Wad: return balances[0] def our_total_buy_balance(self, balances) -> Wad: return balances[1] def our_eth_balance(self, balances) -> Wad: return balances[2] def our_sell_orders(self, our_orders: list) -> list: return list(filter(lambda order: order.is_sell, our_orders)) def our_buy_orders(self, our_orders: list) -> list: return list(filter(lambda order: not order.is_sell, our_orders)) def synchronize_orders(self): bands = Bands.read(self.bands_config, self.spread_feed, self.history) order_book = self.order_book_manager.get_order_book() target_price = self.price_feed.get_price() # We filter out expired orders from the order book snapshot. The reason for that is that # it allows us to replace expired orders faster. Without it, we would have to wait # for the next order book refresh in order to realize an order has expired. Unfortunately, # in case of 0x order book refresh can be quite slow as it involves making multiple calls # to the Ethereum node. # # By filtering out expired orders here, we can replace them the next `synchronize_orders` # tick after they expire. Which is ~ 1s delay, instead of avg ~ 5s without this trick. orders = self.remove_expired_orders(order_book.orders) if self.our_eth_balance(order_book.balances) < self.min_eth_balance: self.logger.warning("Keeper ETH balance below minimum. Cancelling all orders.") self.order_book_manager.cancel_all_orders() return # Cancel orders cancellable_orders = bands.cancellable_orders(our_buy_orders=self.our_buy_orders(orders), our_sell_orders=self.our_sell_orders(orders), target_price=target_price) if len(cancellable_orders) > 0: self.order_book_manager.cancel_orders(cancellable_orders) return # Do not place new orders if order book state is not confirmed if order_book.orders_being_placed or order_book.orders_being_cancelled: self.logger.debug("Order book is in progress, not placing new orders") return # Balances returned by `our_total_***_balance` still contain amounts "locked" # by currently open orders, so we need to explicitly subtract these amounts. if self.arguments.use_full_balances: our_buy_balance = self.our_total_buy_balance(order_book.balances) our_sell_balance = self.our_total_sell_balance(order_book.balances) else: our_buy_balance = self.our_total_buy_balance(order_book.balances) - Bands.total_amount(self.our_buy_orders(orders)) our_sell_balance = self.our_total_sell_balance(order_book.balances) - Bands.total_amount(self.our_sell_orders(orders)) # Place new orders self.order_book_manager.place_orders(bands.new_orders(our_buy_orders=self.our_buy_orders(orders), our_sell_orders=self.our_sell_orders(orders), our_buy_balance=our_buy_balance, our_sell_balance=our_sell_balance, target_price=target_price)[0]) def place_order_function(self, new_order: NewOrder): assert(isinstance(new_order, NewOrder)) zrx_order = self.zrx_api.place_order(pair=self.pair, is_sell=new_order.is_sell, price=new_order.price, amount=new_order.amount, expiration=int(time.time()) + self.arguments.order_expiry) zrx_order = self.zrx_relayer_api.calculate_fees(zrx_order) zrx_order = self.zrx_exchange.sign_order(zrx_order) if self.zrx_relayer_api.submit_order(zrx_order): if self.arguments.remember_own_orders: with self.placed_zrx_orders_lock: self.placed_zrx_orders.append(zrx_order) order = self.zrx_api.get_orders(self.pair, [zrx_order])[0] return order else: return None def cancel_order_function(self, order): transact = self.zrx_exchange.cancel_order(order.zrx_order).transact(gas_price=self.gas_price) return transact is not None and transact.successful
class RadarRelayMarketMakerKeeper: """Keeper acting as a market maker on RadarRelay, on the WETH/SAI pair.""" logger = logging.getLogger('radarrelay-market-maker-keeper') def __init__(self, args: list, **kwargs): parser = argparse.ArgumentParser(prog='radarrelay-market-maker-keeper') parser.add_argument("--rpc-host", type=str, default="localhost", help="JSON-RPC host (default: `localhost')") parser.add_argument("--rpc-port", type=int, default=8545, help="JSON-RPC port (default: `8545')") parser.add_argument( "--eth-from", type=str, required=True, help="Ethereum account from which to send transactions") parser.add_argument("--tub-address", type=str, required=True, help="Ethereum address of the Tub contract") parser.add_argument( "--exchange-address", type=str, required=True, help="Ethereum address of the 0x Exchange contract") parser.add_argument("--weth-address", type=str, required=True, help="Ethereum address of the WETH token") parser.add_argument("--relayer-api-server", type=str, required=True, help="Address of the 0x Relayer API") parser.add_argument("--config", type=str, required=True, help="Buy/sell bands configuration file") parser.add_argument( "--price-feed", type=str, help= "Source of price feed. Tub price feed will be used if not specified" ) parser.add_argument( "--order-expiry", type=int, required=True, help="Expiration time of created orders (in seconds)") parser.add_argument( "--order-expiry-threshold", type=int, default=0, help= "Order expiration time at which order is considered already expired (in seconds)" ) parser.add_argument( "--min-eth-balance", type=float, default=0, help= "Minimum ETH balance below which keeper with either terminate or not start at all" ) parser.add_argument( '--cancel-on-shutdown', dest='cancel_on_shutdown', action='store_true', help= "Whether should cancel all open orders on RadarRelay on keeper shutdown" ) parser.add_argument("--gas-price", type=int, default=0, help="Gas price (in Wei)") parser.add_argument("--debug", dest='debug', action='store_true', help="Enable debug output") self.arguments = parser.parse_args(args) self.web3 = kwargs['web3'] if 'web3' in kwargs else Web3( HTTPProvider( endpoint_uri= f"http://{self.arguments.rpc_host}:{self.arguments.rpc_port}")) self.web3.eth.defaultAccount = self.arguments.eth_from self.our_address = Address(self.arguments.eth_from) self.tub = Tub(web3=self.web3, address=Address(self.arguments.tub_address)) self.vox = Vox(web3=self.web3, address=self.tub.vox()) self.sai = ERC20Token(web3=self.web3, address=self.tub.sai()) self.ether_token = ERC20Token(web3=self.web3, address=Address( self.arguments.weth_address)) logging.basicConfig( format='%(asctime)-15s %(levelname)-8s %(message)s', level=(logging.DEBUG if self.arguments.debug else logging.INFO)) self.bands_config = ReloadableConfig(self.arguments.config) self.min_eth_balance = Wad.from_number(self.arguments.min_eth_balance) self.price_feed = PriceFeedFactory().create_price_feed( self.arguments.price_feed, self.tub, self.vox) self.radar_relay = ZrxExchange(web3=self.web3, address=Address( self.arguments.exchange_address)) self.radar_relay_api = ZrxRelayerApi( exchange=self.radar_relay, api_server=self.arguments.relayer_api_server) def main(self): with Web3Lifecycle(self.web3) as lifecycle: self.lifecycle = lifecycle lifecycle.initial_delay(10) lifecycle.on_startup(self.startup) lifecycle.every(15, self.synchronize_orders) lifecycle.every(60 * 60, self.print_balances) lifecycle.on_shutdown(self.shutdown) def startup(self): self.approve() def shutdown(self): if self.arguments.cancel_on_shutdown: self.cancel_orders(self.our_orders()) def print_balances(self): sai_owned = self.sai.balance_of(self.our_address) weth_owned = self.ether_token.balance_of(self.our_address) self.logger.info( f"Keeper balances are {sai_owned} SAI, {weth_owned} + 0x-WETH") def approve(self): """Approve 0x to access our 0x-WETH and SAI, so we can sell it on the exchange.""" self.radar_relay.approve([self.ether_token, self.sai], directly()) def our_orders(self) -> list: our_orders = self.radar_relay_api.get_orders_by_maker(self.our_address) current_timestamp = int(time.time()) our_orders = list( filter( lambda order: order.expiration > current_timestamp - self. arguments.order_expiry_threshold, our_orders)) our_orders = list( filter( lambda order: self.radar_relay.get_unavailable_buy_amount( order) < order.buy_amount, our_orders)) return our_orders def our_sell_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.sai.address and order. pay_token == self.ether_token.address, our_orders)) def our_buy_orders(self, our_orders: list) -> list: return list( filter( lambda order: order.buy_token == self.ether_token.address and order.pay_token == self.sai.address, our_orders)) def synchronize_orders(self): """Update our positions in the order book to reflect keeper parameters.""" if eth_balance(self.web3, self.our_address) < self.min_eth_balance: self.lifecycle.terminate( "Keeper balance is below the minimum, terminating.") self.cancel_orders(self.our_orders()) return bands = Bands(self.bands_config) our_orders = self.our_orders() target_price = self.price_feed.get_price() if target_price is None: self.logger.warning( "Cancelling all orders as no price feed available.") self.cancel_orders(our_orders) return self.cancel_orders( itertools.chain( bands.excessive_buy_orders(self.our_buy_orders(our_orders), target_price), bands.excessive_sell_orders(self.our_sell_orders(our_orders), target_price), bands.outside_orders(self.our_buy_orders(our_orders), self.our_sell_orders(our_orders), target_price))) self.top_up_bands(our_orders, bands.buy_bands, bands.sell_bands, target_price) def cancel_orders(self, orders): """Cancel orders asynchronously.""" synchronize([ self.radar_relay.cancel_order(order).transact_async( gas_price=self.gas_price()) for order in orders ]) def excessive_orders_in_band(self, band, orders: list, target_price: Wad): """Return orders which need to be cancelled to bring the total order amount in the band below maximum.""" # if total amount of orders in this band is greater than the maximum, we cancel them all # # if may not be the best solution as cancelling only some of them could bring us below # the maximum, but let's stick to it for now orders_in_band = [ order for order in orders if band.includes(order, target_price) ] return orders_in_band if self.total_amount( orders_in_band) > band.max_amount else [] def top_up_bands(self, our_orders: list, buy_bands: list, sell_bands: list, target_price: Wad): """Create new buy and sell orders in all send and buy bands if necessary.""" self.top_up_buy_bands(our_orders, buy_bands, target_price) self.top_up_sell_bands(our_orders, sell_bands, target_price) def top_up_sell_bands(self, our_orders: list, sell_bands: list, target_price: Wad): """Ensure our WETH engagement is not below minimum in all sell bands. Place new orders if necessary.""" our_balance = self.ether_token.balance_of( self.our_address) #TODO deduct orders / or maybe not...? for band in sell_bands: orders = [ order for order in self.our_sell_orders(our_orders) if band.includes(order, target_price) ] total_amount = self.total_amount(orders) if total_amount < band.min_amount: have_amount = Wad.min(band.avg_amount - total_amount, our_balance) if (have_amount >= band.dust_cutoff) and (have_amount > Wad(0)): our_balance = our_balance - have_amount #TODO I think this line is unnecessary here want_amount = have_amount * round( band.avg_price(target_price)) if want_amount > Wad(0): order = self.radar_relay.create_order( pay_token=self.ether_token.address, pay_amount=have_amount, buy_token=self.sai.address, buy_amount=want_amount, expiration=int(time.time()) + self.arguments.order_expiry) order = self.radar_relay_api.calculate_fees(order) order = self.radar_relay.sign_order(order) self.radar_relay_api.submit_order(order) def top_up_buy_bands(self, our_orders: list, buy_bands: list, target_price: Wad): """Ensure our SAI engagement is not below minimum in all buy bands. Place new orders if necessary.""" our_balance = self.sai.balance_of( self.our_address) #TODO deduct orders / or maybe not...? for band in buy_bands: orders = [ order for order in self.our_buy_orders(our_orders) if band.includes(order, target_price) ] total_amount = self.total_amount(orders) if total_amount < band.min_amount: have_amount = Wad.min(band.avg_amount - total_amount, our_balance) if (have_amount >= band.dust_cutoff) and (have_amount > Wad(0)): our_balance = our_balance - have_amount #TODO I think this line is unnecessary here want_amount = have_amount / round( band.avg_price(target_price)) if want_amount > Wad(0): order = self.radar_relay.create_order( pay_token=self.sai.address, pay_amount=have_amount, buy_token=self.ether_token.address, buy_amount=want_amount, expiration=int(time.time()) + self.arguments.order_expiry) order = self.radar_relay_api.calculate_fees(order) order = self.radar_relay.sign_order(order) self.radar_relay_api.submit_order(order) def total_amount(self, orders): pay_amount_available = lambda order: order.pay_amount - ( self.radar_relay.get_unavailable_buy_amount( order) * order.pay_amount / order.buy_amount) return reduce(operator.add, map(pay_amount_available, orders), Wad(0)) def gas_price(self) -> GasPrice: if self.arguments.gas_price > 0: return FixedGasPrice(self.arguments.gas_price) else: return DefaultGasPrice()