Python API for talking to a MySensors gateway (http://www.mysensors.org/). Currently supports serial protocol v1.4, v1.5 and v2.0. Not all features of v2.0 are implemented yet.
- Supports smartsleep with serial API v2.0.
- Supports the MQTT client gateway with serial API v2.0.
- Supports OTA updates, for DualOptiboot bootloader.
Currently the API is best used by implementing a callback handler
import mysensors.mysensors as mysensors
def event(update_type, nid):
"""Callback for mysensors updates."""
print(update_type + " " + str(nid))
GATEWAY = mysensors.SerialGateway('/dev/ttyACM0', event)
GATEWAY.start()
In the above example PyMysensors will call "event" whenever a node in the Mysensors network has been updated.
The data structure of a gateway and it's network is described below.
SerialGateway/TCPGateway/MQTTGateway
sensors - a dict containing all nodes for the gateway; node is of type Sensor
Sensor - a sensor node
children - a dict containing all child sensors for the node
sensor_id - node id on the MySensors network
type - 17 for node or 18 for repeater
sketch_name
sketch_version
battery_level
protocol_version - the mysensors protocol version used by the node
ChildSensor - a child sensor
id - Child id on the parent node
type - Data type, S_HUM, S_TEMP etc.
values - a dictionary of values (V_HUM, V_TEMP, etc.)
Getting the type and values of node 23, child sensor 4 would be performed as follows:
s_type = GATEWAY.sensors[23].children[4].type
values = GATEWAY.sensors[23].children[4].values
To update a node child sensor value and send it to the node, use the set_child_value method in the Gateway class:
# To set sensor 1, child 1, sub-type V_LIGHT (= 2), with value 1.
GATEWAY.set_child_value(1, 1, 2, 1)
PyMysensors also supports four other settings. Debug mode, which prints debug information, persistence mode, which saves the sensor network between runs, persistence file path, which sets the type and path of the persistence file and protocol version which sets the MySensors serial API version.
Debug mode is enabled by setting SerialGateway.debug = True. With persistence mode on, you can restart the gateway without having to restart each individual node in your sensor network. To enable persistance mode, the third argument in the constructor should be True. A path to the config file can be specified as a fourth argument. The file type (.pickle or .json) will set which persistence protocol to use, pickle or json. JSON files can be read using a normal text editor.
The serial gateway also supports setting the baudrate, read timeout and reconnect timeout.
import mysensors.mysensors as mysensors
def event(update_type, nid):
"""Callback for mysensors updates."""
print(update_type + " " + str(nid))
GATEWAY = mysensors.SerialGateway(
'/dev/ttyACM0', event_callback=event, persistence=True,
persistence_file='somefolder/mysensors.pickle', protocol_version='1.4', baud=115200,
timeout=1.0, reconnect_timeout=10.0)
GATEWAY.debug = True
GATEWAY.start()
There are two other gateway types supported besides the serial gateway: the tcp-ethernet gateway and the MQTT gateway.
The ethernet gateway is initialized similar to the serial gateway. The ethernet gateway supports setting the tcp host port, receive timeout and reconnect timeout, besides the common settings and the host ip address.
GATEWAY = mysensors.TCPGateway(
'127.0.0.1', event_callback=event, persistence=True,
persistence_file='somefolder/mysensors.pickle', protocol_version='1.4',
port=5003, timeout=1.0, reconnect_timeout=10.0)
The MQTT gateway requires MySensors serial API v2.0 and the MQTT client gateway example sketch loaded in the gateway Arduino. The gateway also requires an MQTT broker and a python MQTT client interface to the broker. See mqtt.py for an example of how to implement this and initialize the MQTT gateway.
Call Gateway
method update_fw
to set one or more nodes for OTA
firmware update. The method takes three positional arguments and one
keyword arguement. The first argument should be the node id of the node to
update. This can also be a list of many node ids. The next two arguments should
be integers representing the firwmare type and version. The keyword argument is
optional and should be a path to a hex file with the new firmware.
GATEWAY.update_fw([1, 2], 1, 2, fw_path='/path/to/firmware.hex')
After the update_fw
method has been called the node(s) will be requested
to restart when pymysensors Gateway receives the next set message. After
restart and during the MySensors begin
method, the node will send a firmware
config request. The pymysensors library will respond to the config request. If
the node receives a proper firmware config response it will send a firmware
request for a block of firmware. The pymysensors library will handle this and
send a firmware response message. The latter request-response conversation will
continue until all blocks of firmware are sent. If the CRC of the transmitted
firmware match the CRC of the firmware config response, the node will restart
and load the new firmware.