Sensaphone hub and sensor abstraction library
Project description
Sensate provides a pythonic interaction layer for Sensaphone hubs and sensors
Currently only the WSG30 is supported (the model we use at Invitae).
If you’d like to help develop Sensate for use with other Sensaphone models, the infrastructure of this library has been designed with modularity in mind.
As most open source libraries, changes should be submitted via diff or pull request, and you should formally accept the terms of the packaged license (in this case, the MIT license).
Purpose
The Sensaphone family of equipment communicates over the SNMP protocol, a protocol generally considered to be bothersome for humans to work with.
Even python libraries for SNMP tend to be a pain.
This library allows you to work with “SensorHub” and “SensorCheck” objects in a much more programmatically natural way.
Setup
To start playing with sensate, it’s recommended (though not required) to use a virtual environment:
Next you can run a “build install”, which will pull in all the dependencies it needs. There aren’t many dependencies, so it shouldn’t take long.
python setup.py build install
That’s it!
Test your installation by…
Usage
In most cases, the following code should work for you. Set HOSTNAME to a reachable hostname on your network or over the internet:
from sensate.sensorhub import SensorHub hub = SensorHub(HOSTNAME) print hub.checks print hub.get_alarms()
That’s it.
hub.get_alarms() prints out a map of type of alarm (‘alarmhigh’, ‘alarmlow’, ‘low_battery’, ‘trouble’) to list of serial numbers of sensors exhibiting this condition. You can change the attribute used in the lists – e.g. to idx – by supplying the name of this attribute to the get_alarms() method, like so:
hub.get_alarms('idx')
hub.checks contains a list of SensorCheck objects with as many addressable attributes as the hub will provide. For example:
SensorCheck for Sensor 1 at wsg30.lan.company.net { 'lastalarm': '2/27/2014 1:08:57pm', 'checktime': datetime.datetime(2014, 3, 7, 23, 23, 1, 90909), 'hostname': 'wsg30.lan.company.net', 'name': 'CLIA Reagent Freezer', 'idx': 1, 'measurement': -19.2, 'units': 'C', 'alarmlow': -25.0, 'alarmhigh': -15.0, 'battery_status': 'OK', 'measurement_type': 'Temp 2.8k C', 'serial': '123456' }
The idx attribute (int) represents the numerical index of the sensor on the hub.
The serial attribute (string) is the physical sensor device’s unique identifier.
battery_status will be one of ‘OK’, ‘Low Battery’, or ‘Trouble’ (the latter meaning that the sensor has become completely unresponsive).
You’ll also notice the checktime attribute, which will be set by sensate at datetime.utcnow().
Both SensorCheck and SensorHub objects have to_dict and to_json methods.
Tips and Tricks
You may not want to connect to the hub immediately upon establishing the SensorHub object. That’s fine – just supply auto=False as a keyword argument to SensorHub.
Then when you want to perform the checks, use the SensorHub.reload() method.
You can get even more granular about your data retrieval: reload() is just a convenience interface to the following two methods:
SensorHub.discover() SensorHub.check()
The first method (discover) populates a dictionary called sensors_by_idx which you can access as an attribute of the SensorHub object. discover performs one poll per possible index point (0 to MAX_SENSORS_PER_HUB) to see if there’s a ‘name’ attribute for this index point. Only indexes with names are added to sensors_by_idx
Also, if you supply match=’foo’ to SensorHub instantiation, only those sensors whose name matches ‘foo’ will be collected. This is useful when trying to ignore Battery and Power level on the hubs, or when collecting logically grouped sensors.
The second method (check) uses the sensors_by_idx dictionary to construct SensorCheck objects, which in turn perform the work of collecting values and statuses.
After SensorHub.check() has been run, there are two dictionaries formed for convenient access to the data:
checks_by_idx checks_by_serial
Both of the above are simply dictionary mappings to the SensorCheck objects, with keys being the index point (idx) or the serial number (serial), respectively.
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