from typing import cast from noise.connection import NoiseConnection as NoiseState from libp2p.io.abc import EncryptedMsgReadWriter, MsgReadWriteCloser, ReadWriteCloser from libp2p.io.msgio import FixedSizeLenMsgReadWriter, encode_msg_with_length from libp2p.network.connection.raw_connection_interface import IRawConnection SIZE_NOISE_MESSAGE_LEN = 2 MAX_NOISE_MESSAGE_LEN = 2 ** (8 * SIZE_NOISE_MESSAGE_LEN) - 1 SIZE_NOISE_MESSAGE_BODY_LEN = 2 MAX_NOISE_MESSAGE_BODY_LEN = MAX_NOISE_MESSAGE_LEN - SIZE_NOISE_MESSAGE_BODY_LEN BYTE_ORDER = "big" # | Noise packet | # < 2 bytes -><- 65535 -> # | noise msg len | noise msg | # | body len | body | padding | # <-2 bytes-><- max=65533 bytes -> class NoisePacketReadWriter(FixedSizeLenMsgReadWriter): size_len_bytes = SIZE_NOISE_MESSAGE_LEN def encode_msg_body(msg_body: bytes) -> bytes: encoded_msg_body = encode_msg_with_length(msg_body, SIZE_NOISE_MESSAGE_BODY_LEN) if len(encoded_msg_body) > MAX_NOISE_MESSAGE_BODY_LEN: raise ValueError( f"msg_body is too long: {len(msg_body)}, " f"maximum={MAX_NOISE_MESSAGE_BODY_LEN}" ) # NOTE: Improvements: # 1. Senders *SHOULD* use a source of random data to populate the padding field. # 2. and *may* use any length of padding that does not cause the total length of # the Noise message to exceed 65535 bytes. # Ref: https://github.com/libp2p/specs/tree/master/noise#encrypted-payloads return encoded_msg_body # + padding def decode_msg_body(noise_msg: bytes) -> bytes: len_body = int.from_bytes(noise_msg[:SIZE_NOISE_MESSAGE_BODY_LEN], BYTE_ORDER) # Just ignore the padding return noise_msg[ SIZE_NOISE_MESSAGE_BODY_LEN : (SIZE_NOISE_MESSAGE_BODY_LEN + len_body) ] class BaseNoiseMsgReadWriter(EncryptedMsgReadWriter): """ The base implementation of noise message reader/writer. `encrypt` and `decrypt` are not implemented here, which should be implemented by the subclasses. """ read_writer: MsgReadWriteCloser noise_state: NoiseState def __init__(self, conn: IRawConnection, noise_state: NoiseState) -> None: self.read_writer = NoisePacketReadWriter(cast(ReadWriteCloser, conn)) self.noise_state = noise_state async def write_msg(self, data: bytes) -> None: noise_msg = encode_msg_body(data) data_encrypted = self.encrypt(noise_msg) await self.read_writer.write_msg(data_encrypted) async def read_msg(self) -> bytes: noise_msg_encrypted = await self.read_writer.read_msg() noise_msg = self.decrypt(noise_msg_encrypted) return decode_msg_body(noise_msg) async def close(self) -> None: await self.read_writer.close() class NoiseHandshakeReadWriter(BaseNoiseMsgReadWriter): def encrypt(self, data: bytes) -> bytes: return self.noise_state.write_message(data) def decrypt(self, data: bytes) -> bytes: return self.noise_state.read_message(data) class NoiseTransportReadWriter(BaseNoiseMsgReadWriter): def encrypt(self, data: bytes) -> bytes: return self.noise_state.encrypt(data) def decrypt(self, data: bytes) -> bytes: return self.noise_state.decrypt(data)