示例#1
0
async def get_directly_linked_peers(chaindb1=None, received_msg_callback1=None,
                                    chaindb2=None, received_msg_callback2=None):
    """Create two LESPeers with their readers/writers connected directly.

    The first peer's reader will write directly to the second's writer, and vice-versa.
    """
    if chaindb1 is None:
        chaindb1 = BaseChainDB(MemoryDB())
        chaindb1.persist_header_to_db(MAINNET_GENESIS_HEADER)
    if chaindb2 is None:
        chaindb2 = BaseChainDB(MemoryDB())
        chaindb2.persist_header_to_db(MAINNET_GENESIS_HEADER)
    peer1_private_key = ecies.generate_privkey()
    peer2_private_key = ecies.generate_privkey()
    peer1_remote = kademlia.Node(
        peer2_private_key.public_key, kademlia.Address('0.0.0.0', 0, 0))
    peer2_remote = kademlia.Node(
        peer1_private_key.public_key, kademlia.Address('0.0.0.0', 0, 0))
    initiator = auth.HandshakeInitiator(peer1_remote, peer1_private_key)
    peer2_reader = asyncio.StreamReader()
    peer1_reader = asyncio.StreamReader()
    # Link the peer1's writer to the peer2's reader, and the peer2's writer to the
    # peer1's reader.
    peer2_writer = type(
        "mock-streamwriter",
        (object,),
        {"write": peer1_reader.feed_data,
         "close": lambda: None}
    )
    peer1_writer = type(
        "mock-streamwriter",
        (object,),
        {"write": peer2_reader.feed_data,
         "close": lambda: None}
    )

    peer1, peer2 = None, None
    handshake_finished = asyncio.Event()

    async def do_handshake():
        nonlocal peer1, peer2
        aes_secret, mac_secret, egress_mac, ingress_mac = await auth._handshake(
            initiator, peer1_reader, peer1_writer)

        # Need to copy those before we pass them on to the Peer constructor because they're
        # mutable. Also, the 2nd peer's ingress/egress MACs are reversed from the first peer's.
        peer2_ingress = egress_mac.copy()
        peer2_egress = ingress_mac.copy()

        peer1 = LESPeerServing(
            remote=peer1_remote, privkey=peer1_private_key, reader=peer1_reader,
            writer=peer1_writer, aes_secret=aes_secret, mac_secret=mac_secret,
            egress_mac=egress_mac, ingress_mac=ingress_mac, chaindb=chaindb1,
            network_id=1, received_msg_callback=received_msg_callback1)

        peer2 = LESPeerServing(
            remote=peer2_remote, privkey=peer2_private_key, reader=peer2_reader,
            writer=peer2_writer, aes_secret=aes_secret, mac_secret=mac_secret,
            egress_mac=peer2_egress, ingress_mac=peer2_ingress, chaindb=chaindb2,
            network_id=1, received_msg_callback=received_msg_callback2)

        handshake_finished.set()

    asyncio.ensure_future(do_handshake())

    responder = auth.HandshakeResponder(peer2_remote, peer2_private_key)
    auth_msg = await peer2_reader.read(constants.ENCRYPTED_AUTH_MSG_LEN)
    peer1_ephemeral_pubkey, peer1_nonce = responder.decode_authentication(auth_msg)

    peer2_nonce = keccak(os.urandom(constants.HASH_LEN))
    auth_ack_msg = responder.create_auth_ack_message(peer2_nonce)
    auth_ack_ciphertext = responder.encrypt_auth_ack_message(auth_ack_msg)
    peer2_writer.write(auth_ack_ciphertext)

    await handshake_finished.wait()

    # Perform the base protocol (P2P) handshake.
    peer1.base_protocol.send_handshake()
    peer2.base_protocol.send_handshake()
    msg1 = await peer1.read_msg()
    peer1.process_msg(msg1)
    msg2 = await peer2.read_msg()
    peer2.process_msg(msg2)

    # Now send the handshake msg for each enabled sub-protocol.
    for proto in peer1.enabled_sub_protocols:
        proto.send_handshake(peer1._local_chain_info)
    for proto in peer2.enabled_sub_protocols:
        proto.send_handshake(peer2._local_chain_info)

    return peer1, peer2
示例#2
0
async def _get_directly_linked_peers_without_handshake(peer1_class=LESPeer,
                                                       peer1_chaindb=None,
                                                       peer2_class=LESPeer,
                                                       peer2_chaindb=None):
    """See get_directly_linked_peers().

    Neither the P2P handshake nor the sub-protocol handshake will be performed here.
    """
    if peer1_chaindb is None:
        peer1_chaindb = get_fresh_mainnet_chaindb()
    if peer2_chaindb is None:
        peer2_chaindb = get_fresh_mainnet_chaindb()
    peer1_private_key = ecies.generate_privkey()
    peer2_private_key = ecies.generate_privkey()
    peer1_remote = kademlia.Node(peer2_private_key.public_key,
                                 kademlia.Address('0.0.0.0', 0, 0))
    peer2_remote = kademlia.Node(peer1_private_key.public_key,
                                 kademlia.Address('0.0.0.0', 0, 0))
    initiator = auth.HandshakeInitiator(peer1_remote, peer1_private_key)
    peer2_reader = asyncio.StreamReader()
    peer1_reader = asyncio.StreamReader()
    # Link the peer1's writer to the peer2's reader, and the peer2's writer to the
    # peer1's reader.
    peer2_writer = type("mock-streamwriter", (object, ), {
        "write": peer1_reader.feed_data,
        "close": lambda: None
    })
    peer1_writer = type("mock-streamwriter", (object, ), {
        "write": peer2_reader.feed_data,
        "close": lambda: None
    })

    peer1, peer2 = None, None
    handshake_finished = asyncio.Event()

    async def do_handshake():
        nonlocal peer1, peer2
        aes_secret, mac_secret, egress_mac, ingress_mac = await auth._handshake(
            initiator, peer1_reader, peer1_writer)

        # Need to copy those before we pass them on to the Peer constructor because they're
        # mutable. Also, the 2nd peer's ingress/egress MACs are reversed from the first peer's.
        peer2_ingress = egress_mac.copy()
        peer2_egress = ingress_mac.copy()

        peer1 = peer1_class(remote=peer1_remote,
                            privkey=peer1_private_key,
                            reader=peer1_reader,
                            writer=peer1_writer,
                            aes_secret=aes_secret,
                            mac_secret=mac_secret,
                            egress_mac=egress_mac,
                            ingress_mac=ingress_mac,
                            chaindb=peer1_chaindb,
                            network_id=1)

        peer2 = peer2_class(remote=peer2_remote,
                            privkey=peer2_private_key,
                            reader=peer2_reader,
                            writer=peer2_writer,
                            aes_secret=aes_secret,
                            mac_secret=mac_secret,
                            egress_mac=peer2_egress,
                            ingress_mac=peer2_ingress,
                            chaindb=peer2_chaindb,
                            network_id=1)

        handshake_finished.set()

    asyncio.ensure_future(do_handshake())

    responder = auth.HandshakeResponder(peer2_remote, peer2_private_key)
    auth_msg = await peer2_reader.read(constants.ENCRYPTED_AUTH_MSG_LEN)

    # Can't assert return values, but checking that the decoder doesn't raise
    # any exceptions at least.
    _, _ = responder.decode_authentication(auth_msg)

    peer2_nonce = keccak(os.urandom(constants.HASH_LEN))
    auth_ack_msg = responder.create_auth_ack_message(peer2_nonce)
    auth_ack_ciphertext = responder.encrypt_auth_ack_message(auth_ack_msg)
    peer2_writer.write(auth_ack_ciphertext)

    await handshake_finished.wait()

    return peer1, peer2