def test(q, bus, conn, stream, bytestream_cls, address_type, access_control,
         access_control_param):
    if bytestream_cls in [BytestreamS5BRelay, BytestreamS5BRelayBugged]:
        # disable SOCKS5 relay tests because proxy can't be used with muc
        # contacts atm
        return

    iq_event = q.expect('stream-iq',
                        to=None,
                        query_ns='vcard-temp',
                        query_name='vCard')

    acknowledge_iq(stream, iq_event.stanza)

    t.check_conn_properties(q, conn)

    bob_handle = conn.get_contact_handle_sync('[email protected]/bob')

    address = t.create_server(q, address_type)

    def new_chan_predicate(e):
        types = []
        for _, props in e.args[0]:
            types.append(props[cs.CHANNEL_TYPE])

        return cs.CHANNEL_TYPE_STREAM_TUBE in types

    def find_stream_tube(channels):
        for path, props in channels:
            if props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE:
                return path, props

        return None, None

    # offer a stream tube to another room (new API)
    address = t.create_server(q, address_type, block_reading=True)

    request = {
        cs.CHANNEL_TYPE: cs.CHANNEL_TYPE_STREAM_TUBE,
        cs.TARGET_HANDLE_TYPE: cs.HT_ROOM,
        cs.TARGET_ID: '*****@*****.**',
        cs.STREAM_TUBE_SERVICE: 'newecho',
    }
    _, new_tube_path, new_tube_props = \
        join_muc(q, bus, conn, stream, '*****@*****.**', request)

    e = q.expect('dbus-signal',
                 signal='NewChannels',
                 predicate=new_chan_predicate)

    path, prop = find_stream_tube(e.args[0])
    assert prop[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
    assert prop[cs.INITIATOR_ID] == '[email protected]/test'
    assert prop[cs.REQUESTED] == True
    assert prop[cs.TARGET_HANDLE_TYPE] == cs.HT_ROOM
    assert prop[cs.TARGET_ID] == '*****@*****.**'
    assert prop[cs.STREAM_TUBE_SERVICE] == 'newecho'

    # check that the tube channel is in the channels list
    all_channels = conn.Get(cs.CONN_IFACE_REQUESTS,
                            'Channels',
                            dbus_interface=cs.PROPERTIES_IFACE,
                            byte_arrays=True)
    assertContains((path, prop), all_channels)

    tube_chan = wrap_channel(bus.get_object(conn.bus_name, path), 'StreamTube')
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE,
                                  dbus_interface=cs.PROPERTIES_IFACE)

    assert tube_props['State'] == cs.TUBE_CHANNEL_STATE_NOT_OFFERED

    # offer the tube
    call_async(q, tube_chan.StreamTube, 'Offer', address_type, address,
               access_control, {'foo': 'bar'})

    stream_event, _, status_event = q.expect_many(
        EventPattern('stream-presence',
                     to='[email protected]/test',
                     predicate=lambda e: t.presence_contains_tube(e)),
        EventPattern('dbus-return', method='Offer'),
        EventPattern('dbus-signal',
                     signal='TubeChannelStateChanged',
                     args=[cs.TUBE_CHANNEL_STATE_OPEN]))

    tube_self_handle = tube_chan.Properties.Get(cs.CHANNEL_IFACE_GROUP,
                                                'SelfHandle')
    assert conn.inspect_contact_sync(
        tube_self_handle) == '[email protected]/test'

    presence = stream_event.stanza
    tubes_nodes = xpath.queryForNodes(
        '/presence/tubes[@xmlns="%s"]' % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    stream_tube_id = 666

    tube_nodes = xpath.queryForNodes('/tubes/tube', tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube['type'] == 'stream'
        assert not tube.hasAttribute('initiator')
        assert tube['service'] == 'newecho'
        assert not tube.hasAttribute('stream-id')
        assert not tube.hasAttribute('dbus-name')

        stream_tube_id = int(tube['id'])

    params = {}
    parameter_nodes = xpath.queryForNodes('/tube/parameters/parameter', tube)
    for node in parameter_nodes:
        assert node['name'] not in params
        params[node['name']] = (node['type'], str(node))
    assert params == {'foo': ('str', 'bar')}

    bob_handle = conn.get_contact_handle_sync('[email protected]/bob')

    bytestream = connect_to_tube(stream, q, bytestream_cls,
                                 '*****@*****.**', stream_tube_id)

    iq_event, socket_event, conn_event = q.expect_many(
        EventPattern('stream-iq', iq_type='result'),
        EventPattern('socket-connected'),
        EventPattern('dbus-signal',
                     signal='NewRemoteConnection',
                     interface=cs.CHANNEL_TYPE_STREAM_TUBE))

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    protocol = socket_event.protocol
    # start to read from the transport so we can read the control byte
    protocol.transport.startReading()
    t.check_new_connection_access(q, access_control, access, protocol)

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES,
                               iq_event.stanza)
    assert len(tube) == 1

    use_tube(q, bytestream, protocol, conn_id)

    tube_chan.Channel.Close()
    q.expect_many(EventPattern('dbus-signal', signal='Closed'),
                  EventPattern('dbus-signal', signal='ChannelClosed'))

    t.cleanup()
Пример #2
0
def test(q, bus, conn, stream):
    vcard_event, roster_event = q.expect_many(
        EventPattern('stream-iq',
                     to=None,
                     query_ns='vcard-temp',
                     query_name='vCard'),
        EventPattern('stream-iq', query_ns=ns.ROSTER))

    acknowledge_iq(stream, vcard_event.stanza)

    # Send a roster with one member, Joe.
    roster = roster_event.stanza
    roster['type'] = 'result'
    item = roster_event.query.addElement('item')
    item['jid'] = 'joe@localhost'
    item['subscription'] = 'both'
    stream.send(roster)

    # Send Joe's presence.
    presence = domish.Element(('jabber:client', 'presence'))
    presence['from'] = 'joe@localhost/Joe'
    presence['to'] = 'test@localhost/Resource'
    c = presence.addElement('c')
    c['xmlns'] = 'http://jabber.org/protocol/caps'
    c['node'] = 'http://example.com/IDontSupportTubes'
    c['ver'] = '1.0'
    stream.send(presence)

    # Gabble discoes Joe, because it doesn't know his client's caps
    event = q.expect('stream-iq',
                     iq_type='get',
                     query_ns='http://jabber.org/protocol/disco#info',
                     to='joe@localhost/Joe')
    assert event.query['node'] == 'http://example.com/IDontSupportTubes#1.0'

    # Send a "Joe doesn't have any caps" response.
    result = event.stanza
    result['type'] = 'result'
    stream.send(result)

    # Ensure Joe's caps have been received.
    # FIXME: we shouldn't need to do this, the tubes code should wait for the
    #        caps to appear, just like the StreamedMedia channel does.
    sync_stream(q, stream)

    address = t.create_server(q, cs.SOCKET_ADDRESS_TYPE_IPV4)

    # Now we try making new-style DBusTube and StreamTube channels, and calling
    # the relevant Offer method on them; this should fail with NotAvailable.
    # FIXME: I think this should be NotCapable
    st_path, _ = conn.Requests.CreateChannel(
        props(cs.CHANNEL_TYPE_STREAM_TUBE,
              {cs.STREAM_TUBE_SERVICE: "newecho"}))
    st_chan = bus.get_object(conn.bus_name, st_path)
    st = dbus.Interface(st_chan, cs.CHANNEL_TYPE_STREAM_TUBE)
    call_async(q, st, 'Offer', cs.SOCKET_ADDRESS_TYPE_IPV4, address,
               cs.SOCKET_ACCESS_CONTROL_LOCALHOST, {})
    e = q.expect('dbus-error', method='Offer').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()

    dt_path, _ = conn.Requests.CreateChannel(
        props(cs.CHANNEL_TYPE_DBUS_TUBE,
              {cs.DBUS_TUBE_SERVICE_NAME: "com.newecho"}))
    dt_chan = bus.get_object(conn.bus_name, dt_path)
    dt = dbus.Interface(dt_chan, cs.CHANNEL_TYPE_DBUS_TUBE)
    call_async(q, dt, 'Offer', {}, cs.SOCKET_ACCESS_CONTROL_CREDENTIALS)
    e = q.expect('dbus-error', method='Offer').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()

    t.cleanup()
def test(q, bus, conn, stream, bytestream_cls, address_type, access_control, access_control_param):
    if bytestream_cls in [BytestreamS5BRelay, BytestreamS5BRelayBugged]:
        # disable SOCKS5 relay tests because proxy can't be used with muc
        # contacts atm
        return

    conn.Connect()

    _, iq_event = q.expect_many(
        EventPattern("dbus-signal", signal="StatusChanged", args=[cs.CONN_STATUS_CONNECTED, cs.CSR_REQUESTED]),
        EventPattern("stream-iq", to=None, query_ns="vcard-temp", query_name="vCard"),
    )

    acknowledge_iq(stream, iq_event.stanza)

    self_handle = conn.GetSelfHandle()
    self_name = conn.InspectHandles(cs.HT_CONTACT, [self_handle])[0]

    t.check_conn_properties(q, conn)

    room_handle, tubes_chan, tubes_iface = get_muc_tubes_channel(q, bus, conn, stream, "*****@*****.**")

    tubes_self_handle = tubes_chan.GetSelfHandle(dbus_interface=cs.CHANNEL_IFACE_GROUP)

    bob_handle = conn.RequestHandles(cs.HT_CONTACT, ["[email protected]/bob"])[0]

    address = t.create_server(q, address_type)

    # offer stream tube (old API) using an Unix socket
    call_async(
        q,
        tubes_iface,
        "OfferStreamTube",
        "echo",
        sample_parameters,
        address_type,
        address,
        access_control,
        access_control_param,
    )

    new_tube_event, stream_event, _, new_channels_event = q.expect_many(
        EventPattern("dbus-signal", signal="NewTube"),
        EventPattern("stream-presence", to="[email protected]/test"),
        EventPattern("dbus-return", method="OfferStreamTube"),
        EventPattern("dbus-signal", signal="NewChannels"),
    )

    # handle new_tube_event
    stream_tube_id = new_tube_event.args[0]
    assert new_tube_event.args[1] == tubes_self_handle
    assert new_tube_event.args[2] == 1  # Stream
    assert new_tube_event.args[3] == "echo"
    assert new_tube_event.args[4] == sample_parameters
    assert new_tube_event.args[5] == cs.TUBE_CHANNEL_STATE_OPEN

    # handle stream_event
    # We announce our newly created tube in our muc presence
    presence = stream_event.stanza
    x_nodes = xpath.queryForNodes('/presence/x[@xmlns="http://jabber.org/' 'protocol/muc"]', presence)
    assert x_nodes is not None
    assert len(x_nodes) == 1

    tubes_nodes = xpath.queryForNodes('/presence/tubes[@xmlns="%s"]' % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    tube_nodes = xpath.queryForNodes("/tubes/tube", tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube["type"] == "stream"
        assert not tube.hasAttribute("initiator")
        assert tube["service"] == "echo"
        assert not tube.hasAttribute("stream-id")
        assert not tube.hasAttribute("dbus-name")
        assert tube["id"] == str(stream_tube_id)

    params = {}
    parameter_nodes = xpath.queryForNodes("/tube/parameters/parameter", tube)
    for node in parameter_nodes:
        assert node["name"] not in params
        params[node["name"]] = (node["type"], str(node))
    assert params == {"ay": ("bytes", "aGVsbG8="), "s": ("str", "hello"), "i": ("int", "-123"), "u": ("uint", "123")}

    # tube is also announced using new API
    channels = new_channels_event.args[0]
    assert len(channels) == 1
    path, props = channels[0]
    assert props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
    assert props[cs.INITIATOR_HANDLE] == tubes_self_handle
    assert props[cs.INITIATOR_ID] == "[email protected]/test"
    assert props[cs.INTERFACES] == [cs.CHANNEL_IFACE_GROUP, cs.CHANNEL_IFACE_TUBE]
    assert props[cs.REQUESTED] == True
    assert props[cs.TARGET_HANDLE] == room_handle
    assert props[cs.TARGET_ID] == "*****@*****.**"
    assert props[cs.STREAM_TUBE_SERVICE] == "echo"

    tube_chan = bus.get_object(conn.bus_name, path)
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE, dbus_interface=cs.PROPERTIES_IFACE, byte_arrays=True)
    assert tube_props["Parameters"] == sample_parameters
    assert tube_props["State"] == cs.TUBE_CHANNEL_STATE_OPEN

    tubes = tubes_iface.ListTubes(byte_arrays=True)
    assert tubes == [
        (stream_tube_id, tubes_self_handle, 1, "echo", sample_parameters, cs.TUBE_CHANNEL_STATE_OPEN)  # Stream
    ]

    assert len(tubes) == 1, unwrap(tubes)
    expected_tube = (
        stream_tube_id,
        tubes_self_handle,
        cs.TUBE_TYPE_STREAM,
        "echo",
        sample_parameters,
        cs.TUBE_STATE_OPEN,
    )
    t.check_tube_in_tubes(expected_tube, tubes)

    # FIXME: if we use an unknown JID here, everything fails
    # (the code uses lookup where it should use ensure)

    bytestream = connect_to_tube(stream, q, bytestream_cls, "*****@*****.**", stream_tube_id)

    iq_event, socket_event, _, conn_event = q.expect_many(
        EventPattern("stream-iq", iq_type="result"),
        EventPattern("socket-connected"),
        EventPattern(
            "dbus-signal",
            signal="StreamTubeNewConnection",
            args=[stream_tube_id, bob_handle],
            interface=cs.CHANNEL_TYPE_TUBES,
        ),
        EventPattern("dbus-signal", signal="NewRemoteConnection", interface=cs.CHANNEL_TYPE_STREAM_TUBE),
    )

    protocol = socket_event.protocol

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES, iq_event.stanza)
    assert len(tube) == 1

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    use_tube(q, bytestream, protocol, conn_id)

    # offer a stream tube to another room (new API)
    address = t.create_server(q, address_type, block_reading=True)

    request = {
        cs.CHANNEL_TYPE: cs.CHANNEL_TYPE_STREAM_TUBE,
        cs.TARGET_HANDLE_TYPE: cs.HT_ROOM,
        cs.TARGET_ID: "*****@*****.**",
        cs.STREAM_TUBE_SERVICE: "newecho",
    }
    _, _, new_tube_path, new_tube_props = join_muc(q, bus, conn, stream, "*****@*****.**", request)

    # first text and tubes channels are announced
    event = q.expect("dbus-signal", signal="NewChannels")
    channels = event.args[0]
    assert len(channels) == 2
    path1, prop1 = channels[0]
    path2, prop2 = channels[1]
    assert sorted([prop1[cs.CHANNEL_TYPE], prop2[cs.CHANNEL_TYPE]]) == [cs.CHANNEL_TYPE_TEXT, cs.CHANNEL_TYPE_TUBES]

    got_text, got_tubes = False, False
    for path, props in channels:
        if props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TEXT:
            got_text = True
        elif props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TUBES:
            got_tubes = True
        else:
            assert False

        assert props[cs.INITIATOR_HANDLE] == self_handle
        assert props[cs.INITIATOR_ID] == self_name
        assert cs.CHANNEL_IFACE_GROUP in props[cs.INTERFACES]
        assert props[cs.TARGET_ID] == "*****@*****.**"
        assert props[cs.REQUESTED] == False

    assert (got_text, got_tubes) == (True, True)

    # now the tube channel is announced
    # FIXME: in this case, all channels should probably be announced together
    event = q.expect("dbus-signal", signal="NewChannels")
    channels = event.args[0]
    assert len(channels) == 1
    path, prop = channels[0]
    assert prop[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
    assert prop[cs.INITIATOR_ID] == "[email protected]/test"
    assert prop[cs.REQUESTED] == True
    assert prop[cs.TARGET_HANDLE_TYPE] == cs.HT_ROOM
    assert prop[cs.TARGET_ID] == "*****@*****.**"
    assert prop[cs.STREAM_TUBE_SERVICE] == "newecho"

    # check that the tube channel is in the channels list
    all_channels = conn.Get(cs.CONN_IFACE_REQUESTS, "Channels", dbus_interface=cs.PROPERTIES_IFACE, byte_arrays=True)
    assertContains((path, prop), all_channels)

    tube_chan = bus.get_object(conn.bus_name, path)
    stream_tube_iface = dbus.Interface(tube_chan, cs.CHANNEL_TYPE_STREAM_TUBE)
    chan_iface = dbus.Interface(tube_chan, cs.CHANNEL)
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE, dbus_interface=cs.PROPERTIES_IFACE)

    assert tube_props["State"] == cs.TUBE_CHANNEL_STATE_NOT_OFFERED

    # offer the tube
    call_async(q, stream_tube_iface, "Offer", address_type, address, access_control, {"foo": "bar"})

    new_tube_event, stream_event, _, status_event = q.expect_many(
        EventPattern("dbus-signal", signal="NewTube"),
        EventPattern("stream-presence", to="[email protected]/test"),
        EventPattern("dbus-return", method="Offer"),
        EventPattern("dbus-signal", signal="TubeChannelStateChanged", args=[cs.TUBE_CHANNEL_STATE_OPEN]),
    )

    tube_self_handle = tube_chan.GetSelfHandle(dbus_interface=cs.CHANNEL_IFACE_GROUP)
    assert conn.InspectHandles(cs.HT_CONTACT, [tube_self_handle]) == ["[email protected]/test"]

    # handle new_tube_event
    stream_tube_id = new_tube_event.args[0]
    assert new_tube_event.args[2] == 1  # Stream
    assert new_tube_event.args[3] == "newecho"
    assert new_tube_event.args[4] == {"foo": "bar"}
    assert new_tube_event.args[5] == cs.TUBE_CHANNEL_STATE_OPEN

    presence = stream_event.stanza
    x_nodes = xpath.queryForNodes('/presence/x[@xmlns="http://jabber.org/' 'protocol/muc"]', presence)
    assert x_nodes is not None
    assert len(x_nodes) == 1

    tubes_nodes = xpath.queryForNodes('/presence/tubes[@xmlns="%s"]' % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    tube_nodes = xpath.queryForNodes("/tubes/tube", tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube["type"] == "stream"
        assert not tube.hasAttribute("initiator")
        assert tube["service"] == "newecho"
        assert not tube.hasAttribute("stream-id")
        assert not tube.hasAttribute("dbus-name")
        assert tube["id"] == str(stream_tube_id)

    params = {}
    parameter_nodes = xpath.queryForNodes("/tube/parameters/parameter", tube)
    for node in parameter_nodes:
        assert node["name"] not in params
        params[node["name"]] = (node["type"], str(node))
    assert params == {"foo": ("str", "bar")}

    bob_handle = conn.RequestHandles(cs.HT_CONTACT, ["[email protected]/bob"])[0]

    bytestream = connect_to_tube(stream, q, bytestream_cls, "*****@*****.**", stream_tube_id)

    iq_event, socket_event, conn_event = q.expect_many(
        EventPattern("stream-iq", iq_type="result"),
        EventPattern("socket-connected"),
        EventPattern("dbus-signal", signal="NewRemoteConnection", interface=cs.CHANNEL_TYPE_STREAM_TUBE),
    )

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    protocol = socket_event.protocol
    # start to read from the transport so we can read the control byte
    protocol.transport.startReading()
    t.check_new_connection_access(q, access_control, access, protocol)

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES, iq_event.stanza)
    assert len(tube) == 1

    use_tube(q, bytestream, protocol, conn_id)

    chan_iface.Close()
    q.expect_many(EventPattern("dbus-signal", signal="Closed"), EventPattern("dbus-signal", signal="ChannelClosed"))
def test(q, bus, conn, stream, bytestream_cls,
       address_type, access_control, access_control_param):
    if bytestream_cls in [BytestreamS5BRelay, BytestreamS5BRelayBugged]:
        # disable SOCKS5 relay tests because proxy can't be used with muc
        # contacts atm
        return

    iq_event = q.expect('stream-iq', to=None, query_ns='vcard-temp',
            query_name='vCard')

    acknowledge_iq(stream, iq_event.stanza)

    t.check_conn_properties(q, conn)

    bob_handle = conn.get_contact_handle_sync('[email protected]/bob')

    address = t.create_server(q, address_type)

    def new_chan_predicate(e):
        types = []
        for _, props in e.args[0]:
            types.append(props[cs.CHANNEL_TYPE])

        return cs.CHANNEL_TYPE_STREAM_TUBE in types

    def find_stream_tube(channels):
        for path, props in channels:
            if props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE:
                return path, props

        return None, None

    # offer a stream tube to another room (new API)
    address = t.create_server(q, address_type, block_reading=True)

    request = {
        cs.CHANNEL_TYPE: cs.CHANNEL_TYPE_STREAM_TUBE,
        cs.TARGET_HANDLE_TYPE: cs.HT_ROOM,
        cs.TARGET_ID: '*****@*****.**',
        cs.STREAM_TUBE_SERVICE: 'newecho',
    }
    _, new_tube_path, new_tube_props = \
        join_muc(q, bus, conn, stream, '*****@*****.**', request)

    e = q.expect('dbus-signal', signal='NewChannels',
                 predicate=new_chan_predicate)

    path, prop = find_stream_tube(e.args[0])
    assert prop[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
    assert prop[cs.INITIATOR_ID] == '[email protected]/test'
    assert prop[cs.REQUESTED] == True
    assert prop[cs.TARGET_HANDLE_TYPE] == cs.HT_ROOM
    assert prop[cs.TARGET_ID] == '*****@*****.**'
    assert prop[cs.STREAM_TUBE_SERVICE] == 'newecho'

    # check that the tube channel is in the channels list
    all_channels = conn.Get(cs.CONN_IFACE_REQUESTS, 'Channels',
        dbus_interface=cs.PROPERTIES_IFACE, byte_arrays=True)
    assertContains((path, prop), all_channels)

    tube_chan = wrap_channel(bus.get_object(conn.bus_name, path), 'StreamTube')
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE, dbus_interface=cs.PROPERTIES_IFACE)

    assert tube_props['State'] == cs.TUBE_CHANNEL_STATE_NOT_OFFERED

    # offer the tube
    call_async(q, tube_chan.StreamTube, 'Offer', address_type, address, access_control, {'foo': 'bar'})

    stream_event, _, status_event = q.expect_many(
        EventPattern('stream-presence', to='[email protected]/test', predicate=lambda e: t.presence_contains_tube(e)),
        EventPattern('dbus-return', method='Offer'),
        EventPattern('dbus-signal', signal='TubeChannelStateChanged', args=[cs.TUBE_CHANNEL_STATE_OPEN]))

    tube_self_handle = tube_chan.Properties.Get(cs.CHANNEL_IFACE_GROUP, 'SelfHandle')
    assert conn.inspect_contact_sync(tube_self_handle) == '[email protected]/test'

    presence = stream_event.stanza
    tubes_nodes = xpath.queryForNodes('/presence/tubes[@xmlns="%s"]'
        % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    stream_tube_id = 666

    tube_nodes = xpath.queryForNodes('/tubes/tube', tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube['type'] == 'stream'
        assert not tube.hasAttribute('initiator')
        assert tube['service'] == 'newecho'
        assert not tube.hasAttribute('stream-id')
        assert not tube.hasAttribute('dbus-name')

        stream_tube_id = int(tube['id'])

    params = {}
    parameter_nodes = xpath.queryForNodes('/tube/parameters/parameter', tube)
    for node in parameter_nodes:
        assert node['name'] not in params
        params[node['name']] = (node['type'], str(node))
    assert params == {'foo': ('str', 'bar')}

    bob_handle = conn.get_contact_handle_sync('[email protected]/bob')

    bytestream = connect_to_tube(stream, q, bytestream_cls, '*****@*****.**', stream_tube_id)

    iq_event, socket_event, conn_event = q.expect_many(
        EventPattern('stream-iq', iq_type='result'),
        EventPattern('socket-connected'),
        EventPattern('dbus-signal', signal='NewRemoteConnection',
            interface=cs.CHANNEL_TYPE_STREAM_TUBE))

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    protocol = socket_event.protocol
    # start to read from the transport so we can read the control byte
    protocol.transport.startReading()
    t.check_new_connection_access(q, access_control, access, protocol)

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES, iq_event.stanza)
    assert len(tube) == 1

    use_tube(q, bytestream, protocol, conn_id)

    tube_chan.Channel.Close()
    q.expect_many(
        EventPattern('dbus-signal', signal='Closed'),
        EventPattern('dbus-signal', signal='ChannelClosed'))

    t.cleanup()
Пример #5
0
def test(q, bus, conn, stream, bytestream_cls,
       address_type, access_control, access_control_param):
    if bytestream_cls in [BytestreamS5BRelay, BytestreamS5BRelayBugged]:
        # disable SOCKS5 relay tests because proxy can't be used with muc
        # contacts atm
        return

    iq_event = q.expect('stream-iq', to=None, query_ns='vcard-temp',
            query_name='vCard')

    acknowledge_iq(stream, iq_event.stanza)

    self_handle = conn.GetSelfHandle()
    self_name = conn.InspectHandles(cs.HT_CONTACT, [self_handle])[0]

    t.check_conn_properties(q, conn)

    room_handle, tubes_chan, tubes_iface = get_muc_tubes_channel(q, bus, conn,
        stream, '*****@*****.**')

    tubes_self_handle = tubes_chan.GetSelfHandle(dbus_interface=cs.CHANNEL_IFACE_GROUP)

    bob_handle = conn.RequestHandles(cs.HT_CONTACT, ['[email protected]/bob'])[0]

    address = t.create_server(q, address_type)

    # offer stream tube (old API) using an Unix socket
    call_async(q, tubes_iface, 'OfferStreamTube',
        'echo', sample_parameters, address_type, address,
        access_control, access_control_param)

    new_tube_event, stream_event, _, new_channels_event = q.expect_many(
        EventPattern('dbus-signal', signal='NewTube'),
        EventPattern('stream-presence', to='[email protected]/test'),
        EventPattern('dbus-return', method='OfferStreamTube'),
        EventPattern('dbus-signal', signal='NewChannels'))

    # handle new_tube_event
    stream_tube_id = new_tube_event.args[0]
    assert new_tube_event.args[1] == tubes_self_handle
    assert new_tube_event.args[2] == 1       # Stream
    assert new_tube_event.args[3] == 'echo'
    assert new_tube_event.args[4] == sample_parameters
    assert new_tube_event.args[5] == cs.TUBE_CHANNEL_STATE_OPEN

    # handle stream_event
    # We announce our newly created tube in our muc presence
    presence = stream_event.stanza
    tubes_nodes = xpath.queryForNodes('/presence/tubes[@xmlns="%s"]'
        % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    tube_nodes = xpath.queryForNodes('/tubes/tube', tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube['type'] == 'stream'
        assert not tube.hasAttribute('initiator')
        assert tube['service'] == 'echo'
        assert not tube.hasAttribute('stream-id')
        assert not tube.hasAttribute('dbus-name')
        assert tube['id'] == str(stream_tube_id)

    params = {}
    parameter_nodes = xpath.queryForNodes('/tube/parameters/parameter', tube)
    for node in parameter_nodes:
        assert node['name'] not in params
        params[node['name']] = (node['type'], str(node))
    assert params == {'ay': ('bytes', 'aGVsbG8='),
                      's': ('str', 'hello'),
                      'i': ('int', '-123'),
                      'u': ('uint', '123'),
                     }

    # tube is also announced using new API
    channels = new_channels_event.args[0]
    assert len(channels) == 1
    path, props = channels[0]
    assert props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
    assert props[cs.INITIATOR_HANDLE] == tubes_self_handle
    assert props[cs.INITIATOR_ID] == '[email protected]/test'
    assert props[cs.INTERFACES] == [cs.CHANNEL_IFACE_GROUP, cs.CHANNEL_IFACE_TUBE]
    assert props[cs.REQUESTED] == True
    assert props[cs.TARGET_HANDLE] == room_handle
    assert props[cs.TARGET_ID] == '*****@*****.**'
    assert props[cs.STREAM_TUBE_SERVICE] == 'echo'

    tube_chan = bus.get_object(conn.bus_name, path)
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE, dbus_interface=cs.PROPERTIES_IFACE,
        byte_arrays=True)
    assert tube_props['Parameters'] == sample_parameters
    assert tube_props['State'] == cs.TUBE_CHANNEL_STATE_OPEN

    tubes = tubes_iface.ListTubes(byte_arrays=True)
    assert tubes == [(
        stream_tube_id,
        tubes_self_handle,
        1,      # Stream
        'echo',
        sample_parameters,
        cs.TUBE_CHANNEL_STATE_OPEN
        )]

    assert len(tubes) == 1, unwrap(tubes)
    expected_tube = (stream_tube_id, tubes_self_handle, cs.TUBE_TYPE_STREAM,
        'echo', sample_parameters, cs.TUBE_STATE_OPEN)
    t.check_tube_in_tubes(expected_tube, tubes)

    # FIXME: if we use an unknown JID here, everything fails
    # (the code uses lookup where it should use ensure)

    bytestream = connect_to_tube(stream, q, bytestream_cls, '*****@*****.**', stream_tube_id)

    iq_event, socket_event, _, conn_event = q.expect_many(
        EventPattern('stream-iq', iq_type='result'),
        EventPattern('socket-connected'),
        EventPattern('dbus-signal', signal='StreamTubeNewConnection',
            args=[stream_tube_id, bob_handle], interface=cs.CHANNEL_TYPE_TUBES),
        EventPattern('dbus-signal', signal='NewRemoteConnection',
            interface=cs.CHANNEL_TYPE_STREAM_TUBE))

    protocol = socket_event.protocol

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES, iq_event.stanza)
    assert len(tube) == 1

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    use_tube(q, bytestream, protocol, conn_id)

    # offer a stream tube to another room (new API)
    address = t.create_server(q, address_type, block_reading=True)

    request = {
        cs.CHANNEL_TYPE: cs.CHANNEL_TYPE_STREAM_TUBE,
        cs.TARGET_HANDLE_TYPE: cs.HT_ROOM,
        cs.TARGET_ID: '*****@*****.**',
        cs.STREAM_TUBE_SERVICE: 'newecho',
    }
    _, _, new_tube_path, new_tube_props = \
        join_muc(q, bus, conn, stream, '*****@*****.**', request)

    # The order in which the NewChannels signals are fired is
    # undefined -- it could be the (tubes, text) channels first, or it
    # could be the tube channel first; so let's accept either order
    # here.

    first, second = q.expect_many(
        EventPattern('dbus-signal', signal='NewChannels'),
        EventPattern('dbus-signal', signal='NewChannels'))

    # NewChannels signal with the text and tubes channels together.
    def nc_textandtubes(event):
        channels = event.args[0]
        assert len(channels) == 2
        path1, prop1 = channels[0]
        path2, prop2 = channels[1]
        assert sorted([prop1[cs.CHANNEL_TYPE], prop2[cs.CHANNEL_TYPE]]) == \
            [cs.CHANNEL_TYPE_TEXT, cs.CHANNEL_TYPE_TUBES]

        got_text, got_tubes = False, False
        for path, props in channels:
            if props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TEXT:
                got_text = True
            elif props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TUBES:
                got_tubes = True
            else:
                assert False

            assert props[cs.INITIATOR_HANDLE] == self_handle
            assert props[cs.INITIATOR_ID] == self_name
            assert cs.CHANNEL_IFACE_GROUP in props[cs.INTERFACES]
            assert props[cs.TARGET_ID] == '*****@*****.**'
            assert props[cs.REQUESTED] == False

        assert (got_text, got_tubes) == (True, True)

    # NewChannels signal with the tube channel.
    def nc_tube(event):
        # FIXME: in this case, all channels should probably be announced together
        channels = event.args[0]
        assert len(channels) == 1
        path, prop = channels[0]
        assert prop[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_STREAM_TUBE
        assert prop[cs.INITIATOR_ID] == '[email protected]/test'
        assert prop[cs.REQUESTED] == True
        assert prop[cs.TARGET_HANDLE_TYPE] == cs.HT_ROOM
        assert prop[cs.TARGET_ID] == '*****@*****.**'
        assert prop[cs.STREAM_TUBE_SERVICE] == 'newecho'

        return path, prop

    if len(first.args[0]) == 1:
        path, prop = nc_tube(first)
        nc_textandtubes(second)
    else:
        nc_textandtubes(first)
        path, prop = nc_tube(second)

    # check that the tube channel is in the channels list
    all_channels = conn.Get(cs.CONN_IFACE_REQUESTS, 'Channels',
        dbus_interface=cs.PROPERTIES_IFACE, byte_arrays=True)
    assertContains((path, prop), all_channels)

    tube_chan = bus.get_object(conn.bus_name, path)
    stream_tube_iface = dbus.Interface(tube_chan, cs.CHANNEL_TYPE_STREAM_TUBE)
    chan_iface = dbus.Interface(tube_chan, cs.CHANNEL)
    tube_props = tube_chan.GetAll(cs.CHANNEL_IFACE_TUBE, dbus_interface=cs.PROPERTIES_IFACE)

    assert tube_props['State'] == cs.TUBE_CHANNEL_STATE_NOT_OFFERED

    # offer the tube
    call_async(q, stream_tube_iface, 'Offer', address_type, address, access_control, {'foo': 'bar'})

    new_tube_event, stream_event, _, status_event = q.expect_many(
        EventPattern('dbus-signal', signal='NewTube'),
        EventPattern('stream-presence', to='[email protected]/test'),
        EventPattern('dbus-return', method='Offer'),
        EventPattern('dbus-signal', signal='TubeChannelStateChanged', args=[cs.TUBE_CHANNEL_STATE_OPEN]))

    tube_self_handle = tube_chan.GetSelfHandle(dbus_interface=cs.CHANNEL_IFACE_GROUP)
    assert conn.InspectHandles(cs.HT_CONTACT, [tube_self_handle]) == ['[email protected]/test']

    # handle new_tube_event
    stream_tube_id = new_tube_event.args[0]
    assert new_tube_event.args[2] == 1       # Stream
    assert new_tube_event.args[3] == 'newecho'
    assert new_tube_event.args[4] == {'foo': 'bar'}
    assert new_tube_event.args[5] == cs.TUBE_CHANNEL_STATE_OPEN

    presence = stream_event.stanza
    tubes_nodes = xpath.queryForNodes('/presence/tubes[@xmlns="%s"]'
        % ns.TUBES, presence)
    assert tubes_nodes is not None
    assert len(tubes_nodes) == 1

    tube_nodes = xpath.queryForNodes('/tubes/tube', tubes_nodes[0])
    assert tube_nodes is not None
    assert len(tube_nodes) == 1
    for tube in tube_nodes:
        assert tube['type'] == 'stream'
        assert not tube.hasAttribute('initiator')
        assert tube['service'] == 'newecho'
        assert not tube.hasAttribute('stream-id')
        assert not tube.hasAttribute('dbus-name')
        assert tube['id'] == str(stream_tube_id)

    params = {}
    parameter_nodes = xpath.queryForNodes('/tube/parameters/parameter', tube)
    for node in parameter_nodes:
        assert node['name'] not in params
        params[node['name']] = (node['type'], str(node))
    assert params == {'foo': ('str', 'bar')}

    bob_handle = conn.RequestHandles(cs.HT_CONTACT, ['[email protected]/bob'])[0]

    bytestream = connect_to_tube(stream, q, bytestream_cls, '*****@*****.**', stream_tube_id)

    iq_event, socket_event, conn_event = q.expect_many(
        EventPattern('stream-iq', iq_type='result'),
        EventPattern('socket-connected'),
        EventPattern('dbus-signal', signal='NewRemoteConnection',
            interface=cs.CHANNEL_TYPE_STREAM_TUBE))

    handle, access, conn_id = conn_event.args
    assert handle == bob_handle

    protocol = socket_event.protocol
    # start to read from the transport so we can read the control byte
    protocol.transport.startReading()
    t.check_new_connection_access(q, access_control, access, protocol)

    # handle iq_event
    bytestream.check_si_reply(iq_event.stanza)
    tube = xpath.queryForNodes('/iq//si/tube[@xmlns="%s"]' % ns.TUBES, iq_event.stanza)
    assert len(tube) == 1

    use_tube(q, bytestream, protocol, conn_id)

    chan_iface.Close()
    q.expect_many(
        EventPattern('dbus-signal', signal='Closed'),
        EventPattern('dbus-signal', signal='ChannelClosed'))
Пример #6
0
def test(q, bus, conn, stream):
    vcard_event, roster_event = q.expect_many(
        EventPattern('stream-iq', to=None, query_ns='vcard-temp',
            query_name='vCard'),
        EventPattern('stream-iq', query_ns=ns.ROSTER))

    acknowledge_iq(stream, vcard_event.stanza)

    # Send a roster with one member, Joe.
    roster = roster_event.stanza
    roster['type'] = 'result'
    item = roster_event.query.addElement('item')
    item['jid'] = 'joe@localhost'
    item['subscription'] = 'both'
    stream.send(roster)

    # Send Joe's presence.
    presence = domish.Element(('jabber:client', 'presence'))
    presence['from'] = 'joe@localhost/Joe'
    presence['to'] = 'test@localhost/Resource'
    c = presence.addElement('c')
    c['xmlns'] = 'http://jabber.org/protocol/caps'
    c['node'] = 'http://example.com/IDontSupportTubes'
    c['ver'] = '1.0'
    stream.send(presence)

    # Gabble discoes Joe, because it doesn't know his client's caps
    event = q.expect('stream-iq', iq_type='get',
        query_ns='http://jabber.org/protocol/disco#info',
        to='joe@localhost/Joe')
    assert event.query['node'] == 'http://example.com/IDontSupportTubes#1.0'

    # Send a "Joe doesn't have any caps" response.
    result = event.stanza
    result['type'] = 'result'
    stream.send(result)

    # Ensure Joe's caps have been received.
    # FIXME: we shouldn't need to do this, the tubes code should wait for the
    #        caps to appear, just like the StreamedMedia channel does.
    sync_stream(q, stream)

    requests = dbus.Interface(conn, cs.CONN_IFACE_REQUESTS)

    # First, we make an old-style Tubes channel, which should work; calling
    # OfferStreamTube or OfferDBusTube on it, however, should fail with
    # NotAvailable
    path, _ = requests.CreateChannel(props(cs.CHANNEL_TYPE_TUBES))
    tubes = make_channel_proxy(conn, path, 'Channel.Type.Tubes')

    call_async(q, tubes, 'OfferDBusTube', 'com.example.monkeys', {})
    e = q.expect('dbus-error', method='OfferDBusTube').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()

    address = t.create_server(q, cs.SOCKET_ADDRESS_TYPE_IPV4)

    call_async(q, tubes, 'OfferStreamTube', 'echo', {},
        cs.SOCKET_ADDRESS_TYPE_IPV4, address,
        cs.SOCKET_ACCESS_CONTROL_LOCALHOST, "")
    e = q.expect('dbus-error', method='OfferStreamTube').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()

    # Now we try making new-style DBusTube and StreamTube channels, and calling
    # the relevant Offer method on them; this should fail with NotAvailable.
    # FIXME: I think this should be NotCapable
    st_path, _ = requests.CreateChannel(props(cs.CHANNEL_TYPE_STREAM_TUBE,
        {cs.STREAM_TUBE_SERVICE: "newecho"}))
    st_chan = bus.get_object(conn.bus_name, st_path)
    st = dbus.Interface(st_chan, cs.CHANNEL_TYPE_STREAM_TUBE)
    call_async(q, st, 'Offer', cs.SOCKET_ADDRESS_TYPE_IPV4,
        address, cs.SOCKET_ACCESS_CONTROL_LOCALHOST, {})
    e = q.expect('dbus-error', method='Offer').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()

    dt_path, _ = requests.CreateChannel(props(cs.CHANNEL_TYPE_DBUS_TUBE,
        { cs.DBUS_TUBE_SERVICE_NAME: "com.newecho" }))
    dt_chan = bus.get_object(conn.bus_name, dt_path)
    dt = dbus.Interface(dt_chan, cs.CHANNEL_TYPE_DBUS_TUBE)
    call_async(q, dt, 'Offer', {}, cs.SOCKET_ACCESS_CONTROL_CREDENTIALS)
    e = q.expect('dbus-error', method='Offer').error
    assert e.get_dbus_name() == cs.NOT_AVAILABLE, e.get_dbus_name()