from __future__ import annotations import asyncio from typing import Awaitable, Callable, TypeAlias from pysphinx.payload import DEFAULT_PAYLOAD_SIZE from pysphinx.sphinx import ( Payload, ProcessedFinalHopPacket, ProcessedForwardHopPacket, SphinxPacket, ) from mixnet.config import MixMembership, NodeConfig from mixnet.packet import Fragment, MessageFlag, MessageReconstructor, PacketBuilder NetworkPacket: TypeAlias = "SphinxPacket | bytes" NetworkPacketQueue: TypeAlias = "asyncio.Queue[NetworkPacket]" Connection: TypeAlias = NetworkPacketQueue BroadcastChannel: TypeAlias = "asyncio.Queue[bytes]" class Node: config: NodeConfig membership: MixMembership mixgossip_channel: MixGossipChannel reconstructor: MessageReconstructor broadcast_channel: BroadcastChannel def __init__(self, config: NodeConfig, membership: MixMembership): self.config = config self.membership = membership self.mixgossip_channel = MixGossipChannel(config, self.__process_sphinx_packet) self.reconstructor = MessageReconstructor() self.broadcast_channel = asyncio.Queue() async def __process_sphinx_packet( self, packet: SphinxPacket ) -> NetworkPacket | None: try: processed = packet.process(self.config.private_key) match processed: case ProcessedForwardHopPacket(): return processed.next_packet case ProcessedFinalHopPacket(): await self.__process_sphinx_payload(processed.payload) except Exception: # Return SphinxPacket as it is, if this node cannot unwrap it. return packet async def __process_sphinx_payload(self, payload: Payload): msg_with_flag = self.reconstructor.add( Fragment.from_bytes(payload.recover_plain_playload()) ) if msg_with_flag is not None: flag, msg = PacketBuilder.parse_msg_and_flag(msg_with_flag) if flag == MessageFlag.MESSAGE_FLAG_REAL: await self.broadcast_channel.put(msg) async def send_message(self, msg: bytes): for packet, _ in PacketBuilder.build_real_packets(msg, self.membership): await self.mixgossip_channel.gossip(packet) class MixGossipChannel: inbound_conns: list[Connection] outbound_conns: list[MixOutboundConnection] handler: Callable[[SphinxPacket], Awaitable[NetworkPacket | None]] def __init__( self, config: NodeConfig, handler: Callable[[SphinxPacket], Awaitable[NetworkPacket | None]], ): self.inbound_conns = [asyncio.Queue() for _ in range(config.conn_degree)] self.outbound_conns = [ MixOutboundConnection(config.transmission_rate_per_sec) for _ in range(config.conn_degree) ] self.handler = handler # A set just for gathering a reference of tasks to prevent them from being garbage collected. # https://docs.python.org/3/library/asyncio-task.html#asyncio.create_task self.tasks = set() for conn in self.inbound_conns: task = asyncio.create_task(self.__process_inbound_conn(conn)) self.tasks.add(task) # To discard the task from the set automatically when it is done. task.add_done_callback(self.tasks.discard) async def __process_inbound_conn(self, conn: Connection): while True: elem = await conn.get() if isinstance(elem, bytes): assert elem == build_noise_packet() # Drop packet continue elif isinstance(elem, SphinxPacket): net_packet = await self.handler(elem) if net_packet is not None: await self.gossip(net_packet) async def gossip(self, packet: NetworkPacket): for conn in self.outbound_conns: await conn.send(packet) class MixOutboundConnection: transmission_rate_per_sec: int queue: NetworkPacketQueue conn: Connection def __init__(self, transmission_rate_per_sec: int): self.transmission_rate_per_sec = transmission_rate_per_sec self.queue = asyncio.Queue() self.conn = asyncio.Queue() self.task = asyncio.create_task(self.__run()) async def __run(self): while True: await asyncio.sleep(1 / self.transmission_rate_per_sec) # TODO: time mixing if self.queue.empty(): elem = build_noise_packet() else: elem = self.queue.get_nowait() await self.conn.put(elem) async def send(self, elem: NetworkPacket): await self.queue.put(elem) def build_noise_packet() -> bytes: return bytes(DEFAULT_PAYLOAD_SIZE)