from typing import AsyncIterator, Dict, Tuple from async_exit_stack import AsyncExitStack from async_generator import asynccontextmanager from async_service import Service, background_trio_service from libp2p.host.host_interface import IHost from libp2p.pubsub.pubsub import Pubsub from libp2p.tools.factories import PubsubFactory CRYPTO_TOPIC = "ethereum" # Message format: # Sending crypto: ,, # Ex. send,aspyn,alex,5 # Set crypto: , # Ex. set,rob,5 # Determine message type by looking at first item before first comma class DummyAccountNode(Service): """ Node which has an internal balance mapping, meant to serve as a dummy crypto blockchain. There is no actual blockchain, just a simple map indicating how much crypto each user in the mappings holds """ pubsub: Pubsub def __init__(self, pubsub: Pubsub) -> None: self.pubsub = pubsub self.balances: Dict[str, int] = {} @property def host(self) -> IHost: return self.pubsub.host async def run(self) -> None: self.subscription = await self.pubsub.subscribe(CRYPTO_TOPIC) self.manager.run_daemon_task(self.handle_incoming_msgs) await self.manager.wait_finished() @classmethod @asynccontextmanager async def create(cls, number: int) -> AsyncIterator[Tuple["DummyAccountNode", ...]]: """ Create a new DummyAccountNode and attach a libp2p node, a floodsub, and a pubsub instance to this new node. We use create as this serves as a factory function and allows us to use async await, unlike the init function """ async with PubsubFactory.create_batch_with_floodsub(number) as pubsubs: async with AsyncExitStack() as stack: dummy_acount_nodes = tuple(cls(pubsub) for pubsub in pubsubs) for node in dummy_acount_nodes: await stack.enter_async_context(background_trio_service(node)) yield dummy_acount_nodes async def handle_incoming_msgs(self) -> None: """Handle all incoming messages on the CRYPTO_TOPIC from peers.""" while True: incoming = await self.subscription.get() msg_comps = incoming.data.decode("utf-8").split(",") if msg_comps[0] == "send": self.handle_send_crypto(msg_comps[1], msg_comps[2], int(msg_comps[3])) elif msg_comps[0] == "set": self.handle_set_crypto(msg_comps[1], int(msg_comps[2])) async def publish_send_crypto( self, source_user: str, dest_user: str, amount: int ) -> None: """ Create a send crypto message and publish that message to all other nodes. :param source_user: user to send crypto from :param dest_user: user to send crypto to :param amount: amount of crypto to send """ msg_contents = f"send,{source_user},{dest_user},{amount!s}" await self.pubsub.publish(CRYPTO_TOPIC, msg_contents.encode()) async def publish_set_crypto(self, user: str, amount: int) -> None: """ Create a set crypto message and publish that message to all other nodes. :param user: user to set crypto for :param amount: amount of crypto """ msg_contents = f"set,{user},{amount!s}" await self.pubsub.publish(CRYPTO_TOPIC, msg_contents.encode()) def handle_send_crypto(self, source_user: str, dest_user: str, amount: int) -> None: """ Handle incoming send_crypto message. :param source_user: user to send crypto from :param dest_user: user to send crypto to :param amount: amount of crypto to send """ if source_user in self.balances: self.balances[source_user] -= amount else: self.balances[source_user] = -amount if dest_user in self.balances: self.balances[dest_user] += amount else: self.balances[dest_user] = amount def handle_set_crypto(self, dest_user: str, amount: int) -> None: """ Handle incoming set_crypto message. :param dest_user: user to set crypto for :param amount: amount of crypto """ self.balances[dest_user] = amount def get_balance(self, user: str) -> int: """ Get balance in crypto for a particular user. :param user: user to get balance for :return: balance of user """ if user in self.balances: return self.balances[user] else: return -1