Python USB interface and command-line tool for TrippLite UPS battery backups.
TrippLite offers UI software for monitoring its batteries. However, most of its batteries don't have network access, and the existing TrippLite software requires a local install.
I wanted to monitor the UPS from a remote headless Linux server, so I wrote this tool.
This has been exclusively tested on the TrippLite SMART1500LCD UPS. It will likely work on similar firmware but there is a known communication issue with some other TrippLite models (see numat/tripplite#3).
Use lsusb
to check. 09ae:2012
should work, while 09ae:3016
may not.
apt install gcc libusb-1.0-0-dev libudev-dev
pip install tripplite
Connect a USB cable from the UPS to your headless server, and you should be ready to run. If you don't want to run as root, see Note on Permissions below.
$ tripplite
{
"config": {
"frequency": 60, # Hz
"power": 1500, # VA
"voltage": 120 # V
},
"health": 100, # %
"input": {
"frequency": 59.7, # Hz
"voltage": 117.2 # V
},
"output": {
"power": 324, # W
"voltage": 117.2 # V
},
"status": {
"ac present": true,
"below remaining capacity": true,
"charging": false,
"discharging": false,
"fully charged": true,
"fully discharged": false,
"needs replacement": false,
"shutdown imminent": false
},
"time to empty": 1004 # s
}
To use in shell scripts, parse the json output with something like
jq. For example,
tripplite | jq '.status."ac present"'
will return whether or not the unit
detects AC power.
If you'd like to link this to more complex behavior (e.g. data logging, text alerts), consider using a Python script.
from tripplite import Battery
with Battery() as battery:
print(battery.get())
The state
variable will contain an object with the same format as above. Use
state['status']['ac present']
and state['status']['shutdown imminent']
for
alerts, and consider logging voltage, frequency, and power.
If you are logging multiple batteries, you will need to handle each connection separately.
from tripplite import Battery, battery_paths
for path in battery_paths:
with Battery(path) as battery:
print(battery.get())
These paths are unfortunately non-deterministic and will change on each iteration.
For long polling, you can improve stability by keeping connections open as long as possible and reconnecting on error. For example:
state = None
def read_batteries(check_period=5):
"""Read battery and reopen in error. Use for long polling."""
battery = Battery()
battery.open()
while True:
time.sleep(check_period)
try:
state = battery.get()
except OSError:
logging.exception(f"Could not read battery {battery}.")
battery.close()
battery.open()
An example for multiple batteries can be found in numat/tripplite#6.
To read the TrippLite, you need access to the USB port. You have options:
- Run everything as root
- Add your user to the
dialout
group to access all serial ports - Create a group restricted to accessing TrippLite USB devices through
udev
For the last option, the rule looks like:
echo 'SUBSYSTEM=="usb", ATTRS{idVendor}=="09ae", GROUP="tripplite"' > /etc/udev/rules.d/tripplite.rules
udevadm control --reload-rules
This package offers an extra install to include a Prometheus Exporter
which allows for data collection into a prometheus time series database. Essentially it's a small HTTP
server that allows
Prometheus to scrape grabbing metrics at a configurable period.
pip install tripplite[exporter]
- This adds the prometheus_client dependency.
You can then manually run the triplite-exporter
cli or use the
tripplite_exporter.service
systemd unit file to have systemd run and supervise the process.
The script will try to close and reopen the USB serial connection to the device on an OSError
. If an open fails,
the script will exit with the return code of 2.