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A Python 3 KNX stack, not complete but easily extensible. Able to encode/decode messages both for USB HID and KNXnet IP.

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knx-stack

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A Python 3 KNX stack, not complete but easily extensible.

It is able to encode/decode knx messages for both USB HID and KNXnet IP.

It can be used with an asynchronous or synchronous client.

Examples

Setup

    >>> import knx_stack
    >>> individual_address = knx_stack.Address(0x0001)
    >>> abcd = knx_stack.GroupAddress(free_style=0xABCD)
    >>> abce = knx_stack.GroupAddress(three_level_style=knx_stack.address.ThreeLevelStyle(main=21, middle=3, sub=206))
    >>> abcf = knx_stack.GroupAddress(two_level_style=knx_stack.address.TwoLevelStyle(main=21, sub=975))

    >>> asap_1 = knx_stack.ASAP(1, "on/off light")
    >>> asap_2 = knx_stack.ASAP(2, "info on/off light")
    >>> asap_3 = knx_stack.ASAP(3, "two temperature sensors (together)")

    >>> address_table = knx_stack.AddressTable(individual_address, [], 255)
    >>> association_table = knx_stack.AssociationTable(address_table, [])
    >>> association_table.associate(asap_1, [abcd])
    >>> association_table.associate(asap_2, [abcd])
    >>> association_table.associate(asap_3, [abce, abcf])

    >>> group_object_table = knx_stack.GroupObjectTable({asap_1: knx_stack.datapointtypes.DPT_Switch,
    ...                                                  asap_2: knx_stack.datapointtypes.DPT_Switch,
    ...                                                  asap_3: knx_stack.datapointtypes.DPT_Value_Temp,
    ...                                                  })

    >>> association_table
    AssociationTable: asap -> addresses
        0 (individual address) -> [0x0001]
        1 (on/off light) -> [(0xABCD 21/973 21/3/205)]
        2 (info on/off light) -> [(0xABCD 21/973 21/3/205)]
        3 (two temperature sensors (together)) -> [(0xABCE 21/974 21/3/206), (0xABCF 21/975 21/3/207)]
    AddressTable: individual address: 0x0001, max_size=255
    <BLANKLINE>
        tsap -> individual address
        0 -> 0x0001
        tsap -> group address (hex_free_style two_level_style three_level_style)
        1 -> (0xABCD 21/973 21/3/205)
        2 -> (0xABCE 21/974 21/3/206)
        3 -> (0xABCF 21/975 21/3/207)
    <BLANKLINE>

    >>> group_object_table
    GroupObjectTable: ASAP -> datapointtype
        1 (on/off light) -> DPT_Switch
        2 (info on/off light) -> DPT_Switch
        3 (two temperature sensors (together)) -> DPT_Value_Temp
    <BLANKLINE>

USB HID decode/encode

    >>> state = knx_stack.State(knx_stack.state.Medium.usb_hid, association_table, group_object_table)

    >>> msg = knx_stack.Msg.make_from_str("0113130008000B010300002900BCE00001ABCD010080")
    >>> knx_stack.decode_msg(state, msg)
    [GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 1 (on/off light)), GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 2 (info on/off light))]
    >>> msg = knx_stack.Msg.make_from_str("0113130008000B010300002900BCE00001ABCC010081")
    >>> knx_stack.decode_msg(state, msg)
    []

    >>> msg = knx_stack.Msg.make_from_str("0113140008000C010300002900B4E00001ABCE02008005")
    >>> knx_stack.decode_msg(state, msg)
    [GroupValueWriteInd (DPT_Value_Temp: {'decoded_value': 0.05} for asap 3 (two temperature sensors (together)))]

    >>> req = knx_stack.layer.application.a_group_value_read.req.Msg(asap=asap_3)
    >>> knx_stack.encode_msg(state, req)
    0113130008000B01030000110096E00000ABCE010000

    >>> dpt = knx_stack.datapointtypes.DPT_Value_Temp()
    >>> dpt.encode(0.05)
    >>> req = knx_stack.layer.application.a_group_value_write.req.Msg(asap=asap_3, dpt=dpt)
    >>> knx_stack.encode_msg(state, req)
    0113150008000D01030000110096E00000ABCE0300800005

KNXnet IP decode/encode

    >>> state = knx_stack.knxnet_ip.State(knx_stack.state.Medium.knxnet_ip, association_table, group_object_table)

    >>> state.sequence_counter_remote = 1
    >>> msg = knx_stack.knxnet_ip.Msg.make_from_str("061004200015047401002900BCE00001ABCD010080")
    >>> knx_stack.decode_msg(state, msg)
    [TunnelingReq(sequence counter=1, status=<ErrorCodes.E_NO_ERROR: 0>), GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 1 (on/off light)), GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 2 (info on/off light))]
    >>> msg = knx_stack.knxnet_ip.Msg.make_from_str("061004200016047401002900B4E00001ABCE02008005")
    >>> knx_stack.decode_msg(state, msg)
    [TunnelingReq(sequence counter=1, status=<ErrorCodes.E_NO_ERROR: 0>), GroupValueWriteInd (DPT_Value_Temp: {'decoded_value': 0.05} for asap 3 (two temperature sensors (together)))]
    >>> req = knx_stack.layer.application.a_group_value_read.req.Msg(asap=asap_3)
    >>> knx_stack.encode_msg(state, req)
    06100420001504000000110096E00000ABCE010000

    >>> dpt = knx_stack.datapointtypes.DPT_Value_Temp()
    >>> dpt.encode(0.05)
    >>> req = knx_stack.layer.application.a_group_value_write.req.Msg(asap=asap_3, dpt=dpt)
    >>> knx_stack.encode_msg(state, req)
    06100420001704000000110096E00000ABCE0300800005

Encode from a dictionary

    >>> state = knx_stack.State(knx_stack.state.Medium.usb_hid, association_table, group_object_table)

    >>> factory = knx_stack.datapointtypes.DPT_Factory()
    >>> dpt = factory.make("DPT_Switch", {"action": "off"})
    >>> req = knx_stack.layer.application.a_group_value_write.req.Msg(asap=asap_1, dpt=dpt)
    >>> req
    GroupValueWriteReq (DPT_Switch {'action': 'off'} for asap 1 (on/off light))
    >>> knx_stack.encode_msg(state, req)
    0113130008000B01030000110096E00000ABCD010080

Decode to a dictionary

    >>> state = knx_stack.State(knx_stack.state.Medium.usb_hid, association_table, group_object_table)

    >>> msg = knx_stack.knxnet_ip.Msg.make_from_str("0113130008000B01030000290096E00000ABCD010080")
    >>> msgs = knx_stack.decode_msg(state, msg)
    >>> msgs
    [GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 1 (on/off light)), GroupValueWriteInd (DPT_Switch {'action': 'off'} for asap 2 (info on/off light))]
    >>> factory = knx_stack.datapointtypes.Description_Factory()
    >>> factory.make(msgs[0].dpt)
    ('DPT_Switch', {'action': 'off'})

Installation

pip install knx-stack

Diving In

Documentation

Contributing

Pull requests are welcome.

License

knx-stack is licensed under the MIT license.

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A Python 3 KNX stack, not complete but easily extensible. Able to encode/decode messages both for USB HID and KNXnet IP.

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