Exemplo n.º 1
0
    def from_event(cls, event: Any) -> Any:  # noqa: F811
        transfer = event.transfer
        balance_proof = transfer.balance_proof
        lock = Lock(
            amount=transfer.lock.amount,
            expiration=transfer.lock.expiration,
            secrethash=transfer.lock.secrethash,
        )

        # pylint: disable=unexpected-keyword-arg
        return cls(
            chain_id=balance_proof.chain_id,
            message_identifier=event.message_identifier,
            payment_identifier=transfer.payment_identifier,
            nonce=balance_proof.nonce,
            token_network_address=balance_proof.token_network_address,
            token=transfer.token,
            channel_identifier=balance_proof.channel_identifier,
            transferred_amount=balance_proof.transferred_amount,
            locked_amount=balance_proof.locked_amount,
            recipient=event.recipient,
            locksroot=balance_proof.locksroot,
            lock=lock,
            target=transfer.target,
            initiator=transfer.initiator,
            signature=EMPTY_SIGNATURE,
            metadata=Metadata(routes=[
                RouteMetadata(route=r.route) for r in transfer.route_states
            ]),
        )
def test_receive_lockedtransfer_invalidnonce(raiden_network, number_of_nodes,
                                             deposit, token_addresses,
                                             reveal_timeout, network_wait):
    app0, app1, app2 = raiden_network
    token_address = token_addresses[0]
    token_network_address = views.get_token_network_address_by_token_address(
        views.state_from_app(app0), app0.raiden.default_registry.address,
        token_address)
    assert token_network_address
    channel0 = get_channelstate(app0, app1, token_network_address)

    amount = 10
    payment_identifier = PaymentID(1)
    secrethash = transfer(
        initiator_app=app0,
        target_app=app2,
        token_address=token_address,
        amount=PaymentAmount(10),
        identifier=payment_identifier,
        timeout=network_wait * number_of_nodes,
    )

    repeated_nonce = Nonce(1)
    expiration = reveal_timeout * 2
    mediated_transfer_message = LockedTransfer(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=repeated_nonce,
        token_network_address=token_network_address,
        token=token_address,
        channel_identifier=channel0.identifier,
        transferred_amount=TokenAmount(amount),
        locked_amount=TokenAmount(amount),
        recipient=app1.raiden.address,
        locksroot=make_locksroot(),
        lock=Lock(amount=PaymentWithFeeAmount(amount),
                  expiration=expiration,
                  secrethash=UNIT_SECRETHASH),
        target=app2.raiden.address,
        initiator=app0.raiden.address,
        signature=EMPTY_SIGNATURE,
        metadata=Metadata(routes=[
            RouteMetadata(route=[app1.raiden.address, app2.raiden.address])
        ]),
    )

    sign_and_inject(mediated_transfer_message, app0.raiden.signer, app1)

    with block_timeout_for_transfer_by_secrethash(app1.raiden, secrethash):
        wait_assert(
            assert_synced_channel_state,
            token_network_address,
            app0,
            deposit - amount,
            [],
            app1,
            deposit + amount,
            [],
        )
def test_received_lockedtransfer_closedchannel(raiden_network, reveal_timeout,
                                               token_addresses, deposit):
    app0, app1 = raiden_network
    registry_address = app0.raiden.default_registry.address
    token_address = token_addresses[0]
    token_network_address = views.get_token_network_address_by_token_address(
        views.state_from_app(app0), app0.raiden.default_registry.address,
        token_address)
    assert token_network_address
    channel0 = get_channelstate(app0, app1, token_network_address)

    RaidenAPI(app1.raiden).channel_close(registry_address, token_address,
                                         app0.raiden.address)

    app0.raiden.proxy_manager.wait_until_block(
        target_block_number=app0.raiden.rpc_client.block_number() + 1)

    # Now receive one mediated transfer for the closed channel
    lock_amount = TokenAmount(10)
    payment_identifier = PaymentID(1)
    expiration = reveal_timeout * 2
    mediated_transfer_message = LockedTransfer(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=Nonce(1),
        token_network_address=token_network_address,
        token=token_address,
        channel_identifier=channel0.identifier,
        transferred_amount=TokenAmount(0),
        locked_amount=lock_amount,
        recipient=app1.raiden.address,
        locksroot=make_locksroot(),
        lock=Lock(
            amount=PaymentWithFeeAmount(lock_amount),
            expiration=expiration,
            secrethash=UNIT_SECRETHASH,
        ),
        target=app1.raiden.address,
        initiator=app0.raiden.address,
        signature=EMPTY_SIGNATURE,
        metadata=Metadata(routes=[RouteMetadata(route=[app1.raiden.address])]),
    )

    sign_and_inject(mediated_transfer_message, app0.raiden.signer, app1)

    # The local state must not change since the channel is already closed
    assert_synced_channel_state(token_network_address, app0, deposit, [], app1,
                                deposit, [])
def test_receive_lockedtransfer_invalidrecipient(raiden_network,
                                                 token_addresses,
                                                 reveal_timeout, deposit):
    app0, app1 = raiden_network
    token_address = token_addresses[0]
    token_network_address = views.get_token_network_address_by_token_address(
        views.state_from_app(app0), app0.raiden.default_registry.address,
        token_address)
    assert token_network_address
    channel0 = get_channelstate(app0, app1, token_network_address)

    payment_identifier = PaymentID(1)
    invalid_recipient = make_address()
    lock_amount = TokenAmount(10)
    expiration = reveal_timeout * 2
    mediated_transfer_message = LockedTransfer(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=Nonce(1),
        token_network_address=token_network_address,
        token=token_address,
        channel_identifier=channel0.identifier,
        transferred_amount=TokenAmount(0),
        locked_amount=lock_amount,
        recipient=invalid_recipient,
        locksroot=make_locksroot(),
        lock=Lock(
            amount=PaymentWithFeeAmount(lock_amount),
            expiration=expiration,
            secrethash=UNIT_SECRETHASH,
        ),
        target=app1.raiden.address,
        initiator=app0.raiden.address,
        signature=EMPTY_SIGNATURE,
        metadata=Metadata(routes=[RouteMetadata(route=[app1.raiden.address])]),
    )

    sign_and_inject(mediated_transfer_message, app0.raiden.signer, app1)

    assert_synced_channel_state(token_network_address, app0, deposit, [], app1,
                                deposit, [])
Exemplo n.º 5
0
def test_receive_lockedtransfer_invalidsender(
    raiden_network: List[RaidenService], token_addresses, deposit, reveal_timeout
):
    app0, app1 = raiden_network
    token_address = token_addresses[0]
    other_key, other_address = make_privkey_address()

    token_network_address = views.get_token_network_address_by_token_address(
        views.state_from_raiden(app0), app0.default_registry.address, token_address
    )
    assert token_network_address
    channel0 = get_channelstate(app0, app1, token_network_address)
    lock_amount = LockedAmount(10)
    expiration = reveal_timeout * 2
    mediated_transfer_message = LockedTransfer(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=PaymentID(1),
        nonce=Nonce(1),
        token_network_address=token_network_address,
        token=token_address,
        channel_identifier=channel0.identifier,
        transferred_amount=TokenAmount(0),
        locked_amount=lock_amount,
        recipient=app0.address,
        locksroot=make_locksroot(),
        lock=Lock(
            amount=PaymentWithFeeAmount(lock_amount),
            expiration=expiration,
            secrethash=UNIT_SECRETHASH,
        ),
        target=TargetAddress(app0.address),
        initiator=InitiatorAddress(other_address),
        signature=EMPTY_SIGNATURE,
        metadata=Metadata(routes=[RouteMetadata(route=[app0.address])]),
    )

    sign_and_inject(mediated_transfer_message, LocalSigner(other_key), app0)

    assert_synced_channel_state(token_network_address, app0, deposit, [], app1, deposit, [])
Exemplo n.º 6
0
def test_regression_multiple_revealsecret(
        raiden_network: List[App],
        token_addresses: List[TokenAddress]) -> None:
    """ Multiple RevealSecret messages arriving at the same time must be
    handled properly.

    Unlock handling followed these steps:

        The Unlock message arrives
        The secret is registered
        The channel is updated and the correspoding lock is removed
        * A balance proof for the new channel state is created and sent to the
          payer
        The channel is unregistered for the given secrethash

    The step marked with an asterisk above introduced a context-switch. This
    allowed a second Reveal Unlock message to be handled before the channel was
    unregistered. And because the channel was already updated an exception was raised
    for an unknown secret.
    """
    app0, app1 = raiden_network
    token = token_addresses[0]
    token_network_address = views.get_token_network_address_by_token_address(
        views.state_from_app(app0), app0.raiden.default_registry.address,
        token)
    assert token_network_address
    channelstate_0_1 = get_channelstate(app0, app1, token_network_address)

    payment_identifier = PaymentID(1)
    secret, secrethash = make_secret_with_hash()
    expiration = BlockExpiration(app0.raiden.get_block_number() + 100)
    lock_amount = PaymentWithFeeAmount(10)
    lock = Lock(amount=lock_amount,
                expiration=expiration,
                secrethash=secrethash)

    nonce = Nonce(1)
    transferred_amount = TokenAmount(0)
    mediated_transfer = LockedTransfer(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=nonce,
        token_network_address=token_network_address,
        token=token,
        channel_identifier=channelstate_0_1.identifier,
        transferred_amount=transferred_amount,
        locked_amount=LockedAmount(lock_amount),
        recipient=app1.raiden.address,
        locksroot=Locksroot(lock.lockhash),
        lock=lock,
        target=TargetAddress(app1.raiden.address),
        initiator=InitiatorAddress(app0.raiden.address),
        signature=EMPTY_SIGNATURE,
        metadata=Metadata(routes=[
            RouteMetadata(route=[app0.raiden.address, app1.raiden.address])
        ]),
    )
    app0.raiden.sign(mediated_transfer)
    app1.raiden.on_messages([mediated_transfer])

    reveal_secret = RevealSecret(message_identifier=make_message_identifier(),
                                 secret=secret,
                                 signature=EMPTY_SIGNATURE)
    app0.raiden.sign(reveal_secret)

    token_network_address = channelstate_0_1.token_network_address
    unlock = Unlock(
        chain_id=UNIT_CHAIN_ID,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=Nonce(mediated_transfer.nonce + 1),
        token_network_address=token_network_address,
        channel_identifier=channelstate_0_1.identifier,
        transferred_amount=TokenAmount(lock_amount),
        locked_amount=LockedAmount(0),
        locksroot=LOCKSROOT_OF_NO_LOCKS,
        secret=secret,
        signature=EMPTY_SIGNATURE,
    )
    app0.raiden.sign(unlock)

    messages = [unlock, reveal_secret]
    receive_method = app1.raiden.on_messages
    wait = set(
        gevent.spawn_later(0.1, receive_method, [data]) for data in messages)

    gevent.joinall(wait, raise_error=True)
Exemplo n.º 7
0
def make_receive_transfer_mediated(
    channel_state: NettingChannelState,
    privkey: bytes,
    nonce: Nonce,
    transferred_amount: TokenAmount,
    lock: HashTimeLockState,
    pending_locks: PendingLocksState = None,
    locked_amount: Optional[PaymentWithFeeAmount] = None,
    chain_id: Optional[ChainID] = None,
) -> LockedTransferSignedState:

    typecheck(lock, HashTimeLockState)

    signer = LocalSigner(privkey)
    address = signer.address
    if address not in (channel_state.our_state.address,
                       channel_state.partner_state.address):
        raise ValueError("Private key does not match any of the participants.")

    if pending_locks is None:
        locks = make_empty_pending_locks_state()
        locks.locks.append(lock.encoded)
    else:
        assert bytes(lock.encoded) in pending_locks.locks
        locks = pending_locks

    if locked_amount is None:
        locked_amount = lock.amount

    assert locked_amount >= lock.amount

    locksroot = compute_locksroot(locks)

    payment_identifier = PaymentID(nonce)
    transfer_target = make_target_address()
    transfer_initiator = make_initiator_address()
    chain_id = chain_id or channel_state.chain_id

    transfer_metadata = Metadata(routes=[
        RouteMetadata(
            route=[channel_state.our_state.address,
                   Address(transfer_target)])
    ])

    mediated_transfer_msg = LockedTransfer(
        chain_id=chain_id,
        message_identifier=make_message_identifier(),
        payment_identifier=payment_identifier,
        nonce=nonce,
        token_network_address=channel_state.token_network_address,
        token=channel_state.token_address,
        channel_identifier=channel_state.identifier,
        transferred_amount=transferred_amount,
        locked_amount=TokenAmount(locked_amount),
        recipient=channel_state.partner_state.address,
        locksroot=locksroot,
        lock=Lock(amount=lock.amount,
                  expiration=lock.expiration,
                  secrethash=lock.secrethash),
        target=transfer_target,
        initiator=transfer_initiator,
        signature=EMPTY_SIGNATURE,
        fee=0,
        metadata=transfer_metadata,
    )
    mediated_transfer_msg.sign(signer)

    receive_lockedtransfer = LockedTransferSignedState(
        payment_identifier=payment_identifier,
        token=channel_state.token_address,
        lock=lock,
        initiator=transfer_initiator,
        target=transfer_target,
        message_identifier=make_message_identifier(),
        balance_proof=balanceproof_from_envelope(mediated_transfer_msg),
        routes=[
            route_metadata.route for route_metadata in transfer_metadata.routes
        ],
    )

    return receive_lockedtransfer