EazyCtrl
Python module and command line tool to monitor and control the air exchangers of Helios (KWL EasyControls) via their Modbus/TCP interface. It allows for an easy command line handling of the devices and for a smooth integration of those into smart home systems (e.g. Home Assistant).
Important note: The module and the command line tool were created based on the publicly accessible documentation for the EasyControls Modbus/TCP interface and for the Modbus/TCP protocol. They were only tested with a Helios KWL EC 300 W air exchanger. Use them on your own risk.
Installing
EazyCtrl should work with any recent Python 3 interpreters. (It has been tested with Python 3.6).
Use Pythons command line installer pip to install it:
pip install eazyctrl
This installs both, the single file command line tool eazyctrl and the
single file Python module eazyctrl.py. Latter you can import if you want to
access the functionality from within your Python scripts.
Using as command line tool
All functionality can be accessed through the command line script
eazyctrl. In order to get information about the possible command line
options, issue
eazyctrl -h
If you want help about a given subcommand, add the subcommand name before the
-h option, e.g.
eazyctrl set -h
will list the available options for the set subcommand.
Obtaining the feature list
In order to list the features which you can access through eazyctrl, use the
list subcommand:
eazyctrl list
This would return a table containing the feature names, their access flag (read-only or read-write) and the corresponding variable, e.g.:
Feature name Access Variable ---------------------------------------------- fan_stage rw v00102 temp_outside_air r v00104 temp_supply_air r v00105 temp_outgoing_air r v00106 temp_extract_air r v00107
Note, that not all variables have been mapped to features yet. Those, not in the table can be queried and set by the low-level variable access methods (see below). But whenever a named feature is available for a given variable, it is recommended to use the more convenient and more robust access via the feature.
Getting the value of a feature
Use the get subcommand to query the value of a given feature.
For example, to query the temperature of the outside air, issue:
eazyctrl get helios-kwl.fritz.box temp_outside_air
The first argument is the host name of the remote device (or its IP-address), followed by the feature name. The result is printed on the console, like:
23.3
Setting the value of a feature
Use the set subcommand to set the value of a given feature.
For example, in order to set the fan stage to level 2, issue:
eazyctrl set helios-kwl.fritz.box fan_stage 2
If the script returns without error message, the communication with the device was successful.
Getting the value of a variable
The command line tool allows to query a variable directly by using its name. This direct variable accesss should only be used, if the given variable has not been mapped to a feature yet.
Additionally to the name of the variable, you also have to provide the maximal length of the expected answer (which can be looked up in the EasyControls manual).
For example, to query the fan stage by reading the variable v00102, issue
eazyctrl getvar helios-kwl.fritz.box v00102 1
Setting the value of a variable
The command line tool allows to set a variable directly by using its name. This direct variable accesss should only be used, if the given variable has not been mapped to a feature yet.
Note, that the value you provide for the variable must be exactly in the right format since it is passed unaltered to the remote device. Consult the EasyControls manual about the expected format for each variable.
For example, to set the fan stage directly via the v00102 variable, issue
eazyctrl setvar helios-kwl.fritz.box v00102 1
Using EazyCtrl as a Python module
The functionality of EazyCtrl can be accessed using the eazyctrl Python
module. The module can be imported in the usual way
import eazyctrl
The high level class EazyController provides an access similar to the command line tool.
Obtaining the feature list
The static method get_feature_list() returns the available
features. It returns a list of tuples, each one containing the name of the
feature and a dictionary with various parameters of that feature.
For example the snippet
host = 'helios-kwl.fritz.box' # replace with the IP-address of your device ftrlist = eazyctrl.EazyController.get_feature_list() print(ftrlist)
results in
[('fan_stage', {'rw': True, 'varname': 'v00102'}),
('temp_outside_air', {'rw': False, 'varname': 'v00104'}),
('temp_supply_air', {'rw': False, 'varname': 'v00105'}),
('temp_outgoing_air', {'rw': False, 'varname': 'v00106'}),
('temp_extract_air', {'rw': False, 'varname': 'v00107'})]
Getting the value of a feature
The method get_feature() returns the value of a given feature. The value is
converted to an appropriate Python type (e.g. integer, float, etc.).
The following example queries the value of the outside air temperature sensor
host = 'helios-kwl.fritz.box' # replace with the IP-address of your device
ctrl = eazyctrl.EazyController(host)
temp_out = ctrl.get_feature('temp_outside_air')
print(temp_out, type(temp_out))
This results in
24.4 <class 'float'>
Setting the value of a feature
You can use the set_feature() method to set a value for a given feature. You
should provide the value as a Python type (e.g. integer, float, etc.) and it
will be automatically converted to the right text representation before being
passed to the device.
For example, you can set the fan stage to level 3 by the following snippet:
host = 'helios-kwl.fritz.box' # replace with the IP-address of your device
ctrl = eazyctrl.EazyController(host)
# Setting the fan stage
success = ctrl.set_feature('fan_stage', 3)
print(success)
# Querying the fan stage to check, whether it has the desired value now
fan_stage = ctrl.get_feature('fan_stage')
print(fan_stage)
The set_feature() method returns True or False indicating whether
the communication with the device was successful or not. So, for the snippet
above, you should get the output
True 3
and of course, the fan should have been switched to stage 3.
Getting the value of a variable
Similar to the command line tool, the EazyController object allows direct variable access as well. This low-level function returns the response of the server unaltered as a string, unless you specify a conversion function. Beyond the variable name, you also have to pass the length of the expected answer (to be found in the EasyConfigs manual).
Let's query the outside air temperature via the v00104 variable and convert it to a float value
host = 'helios-kwl.fritz.box' # replace with the IP-address of your device
ctrl = eazyctrl.EazyController(host)
temp_out = ctrl.get_variable('v00104', 7, conversion=float)
Setting the value of a variable
Via the set_variable() method you can set the value of a given variable.
The example below, sets the fan stage using the variable v00102. It also
demonstrates, that you can use a formatting string instead of a conversion
function for the conversion argument:
host = 'helios-kwl.fritz.box' # replace with the IP-address of your device
ctrl = eazyctrl.EazyController(host)
# Setting the variable
ctrl.set_variable('v00102', 3, conversion="{:d}")
# Check, whether the variable contains the right value
fan_stage = ctrl.get_variable('v00102', 1, conversion=int)
print("Expected: {:d}, obtained {:d}".format(3, fan_stage))
If everything went well, you should obtain
Expected: 3, obtained 3
Notes on concurrent access conflicts
Due to its design, the EasyControls protocol can not deal well with concurrent accesses of multiple clients. Especially, reading out a variable/feature is very error-prone as it needs two communications. The first communication tells the server, which variable should be queried, while the actual value is returned during a second communication. If between the first and second communication a second client starts a query for a different variable, the first client may get back the value for the wrong variable (namely the one the second client asked for).
When EazyCtrl detects, that the wrong variable was returned, it will repeat the given query again after a short random time delay (maximally 3 times). While this strategy should be enough to resolve concurrent access conflicts in typical use cases, it may fail if too many clients / threads are accessing the same device concurrently at the same time.
In order to prevent issues due to concurrent acces, make sure that only a single client or thread accesses the device at a given time. If your home automation system tends to use concurrent threads to query various values simultaneously (e.g. air temperatures), you may need to pipe the queries through a single proxy object with locking features to ensure serial access.
License
EazyCtrl is distributed under the terms of the 2-clause BSD License.
