Python daemon for controlling/sequentially executing commands to PDUs (Power Distribution Units)
Most PDUs have a very low power microprocessor, or low quality software, which cannot handle multiple requests at the same time. This quickly becomes an issue in environments that use power control frequently, such as board farms, and gets worse on PDUs that have a large number of controllable ports.
Every PDU manufacturer has a different way of controlling their PDUs. Though many support SNMP, there's still no single simple way to communicate with all PDUs if you have a mix of brands.
APC, Devantech and ACME are well supported, however there is no official list yet. The strategies.py file is a good place to see all the current drivers.
Debian packages are on the way, hopefully. For now, make sure the requirements are met and then:
python3 setup.py install
There is an official Docker container updated from tip:
$ docker pull pdudaemon/pdudaemon:latest
$ vi pdudaemon.conf
To create a config file, use share/pdudaemon.conf as a base, then mount your config file on top of the default:
$ docker run -v `pwd`/pdudaemon.conf:/config/pdudaemon.conf pdudaemon/pdudaemon:latest
Or you can build your own:
$ git clone https://github.com/pdudaemon/pdudaemon
$ cd pdudaemon
$ vi share/pdudaemon.conf
- configure your PDUs
$ sudo docker build -t pdudaemon --build-arg HTTP_PROXY=$http_proxy -f Dockerfile.dockerhub .
$ docker run --rm -it -e http_proxy=$http_proxy -e https_proxy=$https_proxy -e NO_PROXY="$no_proxy" --net="host" pdudaemon:latest
An example configuration file can be found here.
The section daemon
is pretty self explanatory. The interesting part is the pdus
section, where
all managed PDUs are listed and configured. For example:
"pdus": {
"hostname_or_ip": {
"driver": "driver_name",
"additional_parameter": "42"
},
"test": {
"driver": "localcmdline",
"cmd_on": "echo '%s on' >> /tmp/pdu",
"cmd_off": "echo '%s off' >> /tmp/pdu"
},
"energenie": {
"driver": "EG-PMS",
"device": "01:01:51:a4:c3"
},
"192.168.0.42": {
"driver": "brennenstuhl_wspl01_tasmota"
}
}
It is important to mention, that hostname
can be an arbitrary name for a locally connected device (like energenie
in this example).
For some (or most) network connected devices, it needs to be the actual hostname or IP address the PDU responds to (see query-string
in next section).
The correct value for driver
is highly dependent on the used child class and the specific implementation.
Check the imported Python module for that class and look for drivername
to be sure.
Some drivers require additional parameters (like a device ID).
Which parameters are required can also be extracted from the associated python module and child class definition.
It is also worth checking out the share folder for some driver specific example configuration files and helpful scripts that can help prevent major headaches!
-
HTTP The daemon can accept requests over plain HTTP. The port is configurable, but defaults to 16421 There is no encryption or authentication, consider yourself warned. To enable, change the 'listener' setting in the 'daemon' section of the config file to 'http'. This will break 'pduclient' requests. An HTTP request URL has the following syntax:
http://<pdudaemon-hostname>:<pdudaemon-port>/power/control/<command>?<query-string>
Where:
- pdudaemon-hostname is the hostname or IP address where pdudaemon is running (e.g.: localhost)
- pdudaemon-port is the port used by pdudaemon (e.g.: 16421)
- command is an action for the PDU to execute:
- on: power on
- off: power off
- reboot: reboot
- query-string can have 3 parameters (same as pduclient, see below)
- hostname: the PDU hostname or IP address used in the configuration file (e.g.: "192.168.10.2")
- port: the PDU port number
- delay: delay between power off and on during reboot (optional, by default 5 seconds)
Some example requests would be:
$ curl "http://localhost:16421/power/control/on?hostname=192.168.10.2&port=1" $ curl "http://localhost:16421/power/control/off?hostname=192.168.10.2&port=1" $ curl "http://localhost:16421/power/control/reboot?hostname=192.168.10.2&port=1&delay=10"
Return Codes
- HTTP 200 - Request Accepted
- HTTP 503 - Invalid Request, Request not accepted
-
TCP (legacy pduclient) The bundled client is used when PDUDaemon is configured to listen to 'tcp' requests. TCP support is considered legacy but will remain functional.
Usage: pduclient --daemon deamonhostname --hostname pduhostname --port pduportnum --command pducommand
PDUDaemon client
Options:
-h, --help show this help message and exit
--daemon=PDUDAEMONHOSTNAME
PDUDaemon listener hostname (ex: localhost)
--hostname=PDUHOSTNAME
PDU Hostname (ex: pdu05)
--port=PDUPORTNUM PDU Portnumber (ex: 04)
--command=PDUCOMMAND PDU command (ex: reboot|on|off)
--delay=PDUDELAY Delay before command runs, or between off/on when
rebooting (ex: 5)
- non-daemon (also called drive) If you would just like to use pdudaemon as an executable to drive a PDU without needing to run a daemon, you can use the --drive option. Configure the PDU in the config file as usual, then launch pdudaemon with the following options
$ pdudaemon --conf=share/pdudaemon.conf --drive --hostname pdu01 --port 1 --request reboot
Drivers are implemented children of the "PDUDriver" class and many example implementations can be found inside the drivers directory. Any new driver classes should be added to strategies.py.
External implementation of PDUDriver can also be registered using the python entry_points mechanism. For example add the following to your setup.cfg:
[options.entry_points]
pdudaemon.driver =
mypdu = mypdumod:MyPDUClass
Patches welcome, as long as it keeps the system simple and lightweight.
#pdudaemon on Freenode