# standard imports import logging # third-party imports import celery import requests import web3 from cic_registry import CICRegistry from cic_registry import zero_address from cic_registry.chain import ChainSpec # platform imports from cic_eth.db.models.tx import TxCache from cic_eth.db.models.base import SessionBase from cic_eth.eth import RpcClient from cic_eth.error import TokenCountError, PermanentTxError, OutOfGasError, NotLocalTxError from cic_eth.eth.task import sign_and_register_tx from cic_eth.eth.task import create_check_gas_and_send_task from cic_eth.eth.factory import TxFactory from cic_eth.eth.util import unpack_signed_raw_tx from cic_eth.ext.address import translate_address from cic_eth.task import ( CriticalSQLAlchemyTask, CriticalWeb3Task, ) celery_app = celery.current_app logg = logging.getLogger() # TODO: fetch from cic-contracts instead when implemented contract_function_signatures = { 'transfer': 'a9059cbb', 'approve': '095ea7b3', 'transferfrom': '23b872dd', } class TokenTxFactory(TxFactory): """Factory for creating ERC20 token transactions. """ def approve( self, token_address, spender_address, amount, chain_spec, ): """Create an ERC20 "approve" transaction :param token_address: ERC20 contract address :type token_address: str, 0x-hex :param spender_address: Address to approve spending for :type spender_address: str, 0x-hex :param amount: Amount of tokens to approve :type amount: int :param chain_spec: Chain spec :type chain_spec: cic_registry.chain.ChainSpec :returns: Unsigned "approve" transaction in standard Ethereum format :rtype: dict """ source_token = CICRegistry.get_address(chain_spec, token_address) source_token_contract = source_token.contract tx_approve_buildable = source_token_contract.functions.approve( spender_address, amount, ) source_token_gas = source_token.gas('transfer') tx_approve = tx_approve_buildable.buildTransaction({ 'from': self.address, 'gas': source_token_gas, 'gasPrice': self.gas_price, 'chainId': chain_spec.chain_id(), 'nonce': self.next_nonce(), }) return tx_approve def transfer( self, token_address, receiver_address, value, chain_spec, ): """Create an ERC20 "transfer" transaction :param token_address: ERC20 contract address :type token_address: str, 0x-hex :param receiver_address: Address to send tokens to :type receiver_address: str, 0x-hex :param amount: Amount of tokens to send :type amount: int :param chain_spec: Chain spec :type chain_spec: cic_registry.chain.ChainSpec :returns: Unsigned "transfer" transaction in standard Ethereum format :rtype: dict """ source_token = CICRegistry.get_address(chain_spec, token_address) source_token_contract = source_token.contract transfer_buildable = source_token_contract.functions.transfer( receiver_address, value, ) source_token_gas = source_token.gas('transfer') tx_transfer = transfer_buildable.buildTransaction( { 'from': self.address, 'gas': source_token_gas, 'gasPrice': self.gas_price, 'chainId': chain_spec.chain_id(), 'nonce': self.next_nonce(), }) return tx_transfer def unpack_transfer(data): """Verifies that a transaction is an "ERC20.transfer" transaction, and extracts call parameters from it. :param data: Raw input data from Ethereum transaction. :type data: str, 0x-hex :raises ValueError: Function signature does not match AccountRegister.add :returns: Parsed parameters :rtype: dict """ f = data[2:10] if f != contract_function_signatures['transfer']: raise ValueError('Invalid transfer data ({})'.format(f)) d = data[10:] return { 'to': web3.Web3.toChecksumAddress('0x' + d[64-40:64]), 'amount': int(d[64:], 16) } def unpack_transferfrom(data): """Verifies that a transaction is an "ERC20.transferFrom" transaction, and extracts call parameters from it. :param data: Raw input data from Ethereum transaction. :type data: str, 0x-hex :raises ValueError: Function signature does not match AccountRegister.add :returns: Parsed parameters :rtype: dict """ f = data[2:10] if f != contract_function_signatures['transferfrom']: raise ValueError('Invalid transferFrom data ({})'.format(f)) d = data[10:] return { 'from': web3.Web3.toChecksumAddress('0x' + d[64-40:64]), 'to': web3.Web3.toChecksumAddress('0x' + d[128-40:128]), 'amount': int(d[128:], 16) } def unpack_approve(data): """Verifies that a transaction is an "ERC20.approve" transaction, and extracts call parameters from it. :param data: Raw input data from Ethereum transaction. :type data: str, 0x-hex :raises ValueError: Function signature does not match AccountRegister.add :returns: Parsed parameters :rtype: dict """ f = data[2:10] if f != contract_function_signatures['approve']: raise ValueError('Invalid approval data ({})'.format(f)) d = data[10:] return { 'to': web3.Web3.toChecksumAddress('0x' + d[64-40:64]), 'amount': int(d[64:], 16) } @celery_app.task(base=CriticalWeb3Task) def balance(tokens, holder_address, chain_str): """Return token balances for a list of tokens for given address :param tokens: Token addresses :type tokens: list of str, 0x-hex :param holder_address: Token holder address :type holder_address: str, 0x-hex :param chain_str: Chain spec string representation :type chain_str: str :return: List of balances :rtype: list of int """ #abi = ContractRegistry.abi('ERC20Token') chain_spec = ChainSpec.from_chain_str(chain_str) c = RpcClient(chain_spec) for t in tokens: #token = CICRegistry.get_address(t['address']) #abi = token.abi() #o = c.w3.eth.contract(abi=abi, address=t['address']) o = CICRegistry.get_address(chain_spec, t['address']).contract b = o.functions.balanceOf(holder_address).call() t['balance_network'] = b return tokens @celery_app.task(bind=True, base=CriticalSQLAlchemyTask) def transfer(self, tokens, holder_address, receiver_address, value, chain_str): """Transfer ERC20 tokens between addresses First argument is a list of tokens, to enable the task to be chained to the symbol to token address resolver function. However, it accepts only one token as argument. :raises TokenCountError: Either none or more then one tokens have been passed as tokens argument :param tokens: Token addresses :type tokens: list of str, 0x-hex :param holder_address: Token holder address :type holder_address: str, 0x-hex :param receiver_address: Token receiver address :type receiver_address: str, 0x-hex :param value: Amount of token, in 'wei' :type value: int :param chain_str: Chain spec string representation :type chain_str: str :raises TokenCountError: More than one token is passed in tokens list :return: Transaction hash for tranfer operation :rtype: str, 0x-hex """ # we only allow one token, one transfer if len(tokens) != 1: raise TokenCountError chain_spec = ChainSpec.from_chain_str(chain_str) queue = self.request.delivery_info['routing_key'] # retrieve the token interface t = tokens[0] c = RpcClient(chain_spec, holder_address=holder_address) txf = TokenTxFactory(holder_address, c) tx_transfer = txf.transfer(t['address'], receiver_address, value, chain_spec) (tx_hash_hex, tx_signed_raw_hex) = sign_and_register_tx(tx_transfer, chain_str, queue, cache_task='cic_eth.eth.token.otx_cache_transfer') gas_budget = tx_transfer['gas'] * tx_transfer['gasPrice'] s = create_check_gas_and_send_task( [tx_signed_raw_hex], chain_str, holder_address, gas_budget, [tx_hash_hex], queue, ) s.apply_async() return tx_hash_hex @celery_app.task(bind=True, base=CriticalSQLAlchemyTask) def approve(self, tokens, holder_address, spender_address, value, chain_str): """Approve ERC20 transfer on behalf of holder address First argument is a list of tokens, to enable the task to be chained to the symbol to token address resolver function. However, it accepts only one token as argument. :raises TokenCountError: Either none or more then one tokens have been passed as tokens argument :param tokens: Token addresses :type tokens: list of str, 0x-hex :param holder_address: Token holder address :type holder_address: str, 0x-hex :param receiver_address: Token receiver address :type receiver_address: str, 0x-hex :param value: Amount of token, in 'wei' :type value: int :param chain_str: Chain spec string representation :type chain_str: str :raises TokenCountError: More than one token is passed in tokens list :return: Transaction hash for tranfer operation :rtype: str, 0x-hex """ # we only allow one token, one transfer if len(tokens) != 1: raise TokenCountError chain_spec = ChainSpec.from_chain_str(chain_str) queue = self.request.delivery_info['routing_key'] # retrieve the token interface t = tokens[0] c = RpcClient(chain_spec, holder_address=holder_address) txf = TokenTxFactory(holder_address, c) tx_transfer = txf.approve(t['address'], spender_address, value, chain_spec) (tx_hash_hex, tx_signed_raw_hex) = sign_and_register_tx(tx_transfer, chain_str, queue, cache_task='cic_eth.eth.token.otx_cache_approve') gas_budget = tx_transfer['gas'] * tx_transfer['gasPrice'] s = create_check_gas_and_send_task( [tx_signed_raw_hex], chain_str, holder_address, gas_budget, [tx_hash_hex], queue, ) s.apply_async() return tx_hash_hex @celery_app.task(base=CriticalWeb3Task) def resolve_tokens_by_symbol(token_symbols, chain_str): """Returns contract addresses of an array of ERC20 token symbols :param token_symbols: Token symbols to resolve :type token_symbols: list of str :param chain_str: Chain spec string representation :type chain_str: str :return: Respective token contract addresses :rtype: list of str, 0x-hex """ tokens = [] chain_spec = ChainSpec.from_chain_str(chain_str) for token_symbol in token_symbols: token = CICRegistry.get_token(chain_spec, token_symbol) tokens.append({ 'address': token.address(), 'converters': [], }) return tokens @celery_app.task(base=CriticalSQLAlchemyTask) def otx_cache_transfer( tx_hash_hex, tx_signed_raw_hex, chain_str, ): """Generates and commits transaction cache metadata for an ERC20.transfer or ERC20.transferFrom transaction :param tx_hash_hex: Transaction hash :type tx_hash_hex: str, 0x-hex :param tx_signed_raw_hex: Raw signed transaction :type tx_signed_raw_hex: str, 0x-hex :param chain_str: Chain spec string representation :type chain_str: str :returns: Transaction hash and id of cache element in storage backend, respectively :rtype: tuple """ chain_spec = ChainSpec.from_chain_str(chain_str) tx_signed_raw_bytes = bytes.fromhex(tx_signed_raw_hex[2:]) tx = unpack_signed_raw_tx(tx_signed_raw_bytes, chain_spec.chain_id()) (txc, cache_id) = cache_transfer_data(tx_hash_hex, tx) return txc @celery_app.task(base=CriticalSQLAlchemyTask) def cache_transfer_data( tx_hash_hex, tx, ): """Helper function for otx_cache_transfer :param tx_hash_hex: Transaction hash :type tx_hash_hex: str, 0x-hex :param tx: Signed raw transaction :type tx: str, 0x-hex :returns: Transaction hash and id of cache element in storage backend, respectively :rtype: tuple """ tx_data = unpack_transfer(tx['data']) logg.debug('tx data {}'.format(tx_data)) logg.debug('tx {}'.format(tx)) session = SessionBase.create_session() tx_cache = TxCache( tx_hash_hex, tx['from'], tx_data['to'], tx['to'], tx['to'], tx_data['amount'], tx_data['amount'], session=session, ) session.add(tx_cache) session.commit() cache_id = tx_cache.id session.close() return (tx_hash_hex, cache_id) @celery_app.task(base=CriticalSQLAlchemyTask) def otx_cache_approve( tx_hash_hex, tx_signed_raw_hex, chain_str, ): """Generates and commits transaction cache metadata for an ERC20.approve transaction :param tx_hash_hex: Transaction hash :type tx_hash_hex: str, 0x-hex :param tx_signed_raw_hex: Raw signed transaction :type tx_signed_raw_hex: str, 0x-hex :param chain_str: Chain spec string representation :type chain_str: str :returns: Transaction hash and id of cache element in storage backend, respectively :rtype: tuple """ chain_spec = ChainSpec.from_chain_str(chain_str) tx_signed_raw_bytes = bytes.fromhex(tx_signed_raw_hex[2:]) tx = unpack_signed_raw_tx(tx_signed_raw_bytes, chain_spec.chain_id()) (txc, cache_id) = cache_approve_data(tx_hash_hex, tx) return txc @celery_app.task(base=CriticalSQLAlchemyTask) def cache_approve_data( tx_hash_hex, tx, ): """Helper function for otx_cache_approve :param tx_hash_hex: Transaction hash :type tx_hash_hex: str, 0x-hex :param tx: Signed raw transaction :type tx: str, 0x-hex :returns: Transaction hash and id of cache element in storage backend, respectively :rtype: tuple """ tx_data = unpack_approve(tx['data']) logg.debug('tx data {}'.format(tx_data)) logg.debug('tx {}'.format(tx)) session = SessionBase.create_session() tx_cache = TxCache( tx_hash_hex, tx['from'], tx_data['to'], tx['to'], tx['to'], tx_data['amount'], tx_data['amount'], session=session, ) session.add(tx_cache) session.commit() cache_id = tx_cache.id session.close() return (tx_hash_hex, cache_id) class ExtendedTx: _default_decimals = 6 def __init__(self, tx_hash, chain_spec): self._chain_spec = chain_spec self.chain = str(chain_spec) self.hash = tx_hash self.sender = None self.sender_label = None self.recipient = None self.recipient_label = None self.source_token_value = 0 self.destination_token_value = 0 self.source_token = zero_address self.destination_token = zero_address self.source_token_symbol = '' self.destination_token_symbol = '' self.source_token_decimals = ExtendedTx._default_decimals self.destination_token_decimals = ExtendedTx._default_decimals def set_actors(self, sender, recipient, trusted_declarator_addresses=None): self.sender = sender self.recipient = recipient if trusted_declarator_addresses != None: self.sender_label = translate_address(sender, trusted_declarator_addresses, self.chain) self.recipient_label = translate_address(recipient, trusted_declarator_addresses, self.chain) def set_tokens(self, source, source_value, destination=None, destination_value=None): if destination == None: destination = source if destination_value == None: destination_value = source_value st = CICRegistry.get_address(self._chain_spec, source) dt = CICRegistry.get_address(self._chain_spec, destination) self.source_token = source self.source_token_symbol = st.symbol() self.source_token_decimals = st.decimals() self.source_token_value = source_value self.destination_token = destination self.destination_token_symbol = dt.symbol() self.destination_token_decimals = dt.decimals() self.destination_token_value = destination_value def to_dict(self): o = {} for attr in dir(self): if attr[0] == '_' or attr in ['set_actors', 'set_tokens', 'to_dict']: continue o[attr] = getattr(self, attr) return o