# -*- coding: UTF-8 -*-
"""Displays sensor temperature and CPU frequency
Parameters:
* sensors2.chip: "sensors -u" compatible filter for chip to display (default to empty - show all chips)
* sensors2.showcpu: Enable or disable CPU frequency display (default: true)
* sensors2.showtemp: Enable or disable temperature display (default: true)
* sensors2.showfan: Enable or disable fan display (default: true)
* sensors2.showother: Enable or display "other" sensor readings (default: false)
* sensors2.showname: Enable or disable show of sensor name (default: false)
"""
import re
import bumblebee.util
import bumblebee.output
import bumblebee.engine
class Module(bumblebee.engine.Module):
def __init__(self, engine, config):
super(Module, self).__init__(engine, config, None)
self._chip = self.parameter("chip", "")
self._data = {}
self._update()
self.widgets(self._create_widgets())
def update(self, widgets):
self._update()
for widget in widgets:
self._update_widget(widget)
def state(self, widget):
widget_type = widget.get("type", "")
try:
data = self._data[widget.get("adapter")][widget.get("package")][widget.get("field")]
if "crit" in data and float(data["input"]) > float(data["crit"]):
return ["critical", widget_type]
if "max" in data and float(data["input"]) > float(data["max"]):
return ["warning", widget_type]
except:
pass
return [widget_type]
def _create_widgets(self):
widgets = []
show_temp = bumblebee.util.asbool(self.parameter("showtemp", "true"))
show_fan = bumblebee.util.asbool(self.parameter("showfan", "true"))
show_other = bumblebee.util.asbool(self.parameter("showother", "false"))
if bumblebee.util.asbool(self.parameter("showcpu", "true")):
widget = bumblebee.output.Widget(full_text=self._cpu)
widget.set("type", "cpu")
widgets.append(widget)
for adapter in self._data:
for package in self._data[adapter]:
if bumblebee.util.asbool(self.parameter("showname", "false")):
widget = bumblebee.output.Widget(full_text=package)
widget.set("data", self._data[adapter][package])
widget.set("package", package)
widget.set("field", "")
widget.set("adapter", adapter)
widgets.append(widget)
for field in self._data[adapter][package]:
widget = bumblebee.output.Widget()
widget.set("package", package)
widget.set("field", field)
widget.set("adapter", adapter)
if "temp" in field and show_temp:
# seems to be a temperature
widget.set("type", "temp")
widgets.append(widget)
if "fan" in field and show_fan:
# seems to be a fan
widget.set("type", "fan")
widgets.append(widget)
elif show_other:
# everything else
widget.set("type", "other")
widgets.append(widget)
return widgets
def _update_widget(self, widget):
if widget.get("field", "") == "":
return # nothing to do
data = self._data[widget.get("adapter")][widget.get("package")][widget.get("field")]
if "temp" in widget.get("field"):
widget.full_text(u"{:0.01f}°C".format(data["input"]))
elif "fan" in widget.get("field"):
widget.full_text(u"{:0.0f}RPM".format(data["input"]))
else:
widget.full_text(u"{:0.0f}".format(data["input"]))
def _update(self):
output = bumblebee.util.execute("sensors -u {}".format(self._chip))
self._data = self._parse(output)
def _parse(self, data):
output = {}
package = ""
adapter = None
chip = None
for line in data.split("\n"):
if "Adapter" in line:
# new adapter
line = line.replace("Adapter: ", "")
output[chip + " " + line] = {}
adapter = chip + " " + line
chip = line #default - line before adapter is always the chip
if not adapter: continue
key, value = (line.split(":") + ["", ""])[:2]
if not line.startswith(" "):
# assume this starts a new package
if package in output[adapter] and output[adapter][package] == {}:
del output[adapter][package]
output[adapter][key] = {}
package = key
else:
# feature for this chip
try:
name, variant = (key.strip().split("_", 1) + ["",""])[:2]
if not name in output[adapter][package]:
output[adapter][package][name] = { }
if variant:
output[adapter][package][name][variant] = {}
output[adapter][package][name][variant] = float(value)
except Exception as e:
pass
return output
def _cpu(self, _):
mhz = None
try:
output = open("/sys/devices/system/cpu/cpufreq/policy0/scaling_cur_freq").read()
mhz = int(float(output)/1000.0)
except:
output = open("/proc/cpuinfo").read()
m = re.search(r"cpu MHz\s+:\s+(\d+)", output)
if m:
mhz = int(m.group(1))
else:
m = re.search(r"BogoMIPS\s+:\s+(\d+)", output)
if m:
return "{} BogoMIPS".format(int(m.group(1)))
if not mhz:
return "n/a"
if mhz < 1000:
return "{} MHz".format(mhz)
else:
return "{:0.01f} GHz".format(float(mhz)/1000.0)
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