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pyenergenie / README.md
@David Whale David Whale on 30 May 2016 5 KB Now runs on Raspberry Pi 3 also
# pyenergenie
A python interface to the Energenie line of products

https://energenie4u.co.uk/


Energenie devices (both the green button devices, and the newer MiHome range)
can be controlled and monitored by this Python library on a Raspberry Pi.
With it you can turn sockets on and off, and monitor energy usage.

There are two ways to control Energenie devices from a Raspberry Pi.
One of their boards maps 4 GPIO's to transmit 4 standard messages.
For that board, use this code from Ben Nuttall and Amy Mather:
https://pypi.python.org/pypi/energenie

The second board, the ENER314-RT board, is a full radio that is programmable
from the SPI interface of the Raspberry Pi. For that board, please use
this code, which now supports all models of Raspberry Pi, and all devices
from Energenie (including the old green button devices and the new
MiHome monitor devices).

The Energenie product line uses the HopeRF radio transciever, and the OpenThings 
protocol from Sentec. Energenie have built a RaspberryPi add-on board that 
interfaces to the HopeRF RFM69, and allows both control and monitoring of their 
products from a Raspberry Pi.

Energenie have some (old) sample code written in C to control and monitor
their devices, but this package is now considered to be far superior. Energenie
have been very kind in supporting this work by loaning devices to help with the
testing of this code.

This python library uses a 'zero install' strategy, by embedding everything
that is needed in once place. In theory, you can just press the DownloadZip
button, unzip the code, and run it, and it will work. (None of that
sudo apt-get install nonsense!)

This code *should* work with both Python 2 and Python 3. It has been tested
with both, but note that ongoing development occurs in Python 2, and the
Python 3 compatibility is only re-tested at each major release.


Purpose
====

This library of code is designed to be everything you need to get going with
writing a fully functional application for the Energenie devices (both monitoring
and control).


Getting Going
====

1. Plug in your ENER314-RT-VER01 board from Energenie onto the 26 pin or 40 pin connector of
your Raspberry Pi. This is tested on Raspberry Pi B, B+ B2 and 2B, 3 and PiZero. There is
no reason why it should not work on the A and A+ but it hasn't been specially tested on
those combinations yet.

2. Press the CLONE OR DOWNLOAD button to the right of this page, and choose the
DOWNLOAD ZIP option.

3. unzip the software (from a terminal prompt, e.g. LXTermina)

```
unzip pyenergenie-master.zip
cd pyenergenie-master
cd src
```

4. If you have legacy green button devices, run the setup_tool to learn those devices
to your code


```
sudo python setup_tool.py
option 1. legacy learn mode
ENTER for default house code (or type in a hex number with 5 digits like 12345 or CAB12)
ENTER for switch 1 (or choose 1,2,3,4)
```

Hold the green button on your legacy device until it starts to flash. It should then
learn the house code being broadcast by the setup tool, and then start switching on and
off.

You can edit the registry.kvs to ADD a record for an ENER002 to give this device a
friendly name - look at the examples already in the file.

If you know the house code assigned to an RF hand controller, you can program that into
your code (and your registry.kvs) to make the socket work with both. (Note: I will be adding
a learn mode for RF hand remotes in a later release, you can't learn their codes yet without
having special diagnostics equipment to hand).


5. If you have a MiHome device, run the setup_tool to learn those devices


```
sudo python setup_tool.py
option 2. mihome discovery mode
```

Wait for data to arrive from your mihome device (every 10 seconds) and accept it
when it says 'remember device' - the device is now in the registry.kvs file
and can be used in all other demo programs easily.


6. Try the other demo programs, the simplest one to start using and modifying
is control_any_auto.py as it shows how to refer to devices in your registry
by a simple variable name, and you can switch them on and off in a device
agnostic way (all switchable devices have a turn_on and turn_off function).
This is probably the best way to write your app, by learning your devices
into the registry (or hand coding them in there) and then just referring to them
by name in your python program.


7. Try the other demo programs

These other python programs show off some other features of the Energenie Python
library:

```
control_any_auto.py       auto variable creation from your registry.kvs
control_any_noreg.py      creating your variables manually without a registry
control_any_reg.py        control all switchable devices regardless of name, from registry
discover_mihome.py        a discovery example, there are 4 standard discovery behaviours
mihome_energy_monitor.py  a simple logger that logs all energy messages to energenie.csv
```

8. Future work

For details about future plans and work, please see the github issues log here:

https://github.com/whaleygeek/pyenergenie/issues


David Whale

@whaleygeek

May 2016