Accessing CPU temperature in python
I ne开发者_如何学Goed an example code for accessing CPU temperature in python.
I'm running windows 7, BTW.
Use the WMI module + Open Hardware Monitor + its WMI interface described here.
Sample code:
import wmi
w = wmi.WMI(namespace="root\OpenHardwareMonitor")
temperature_infos = w.Sensor()
for sensor in temperature_infos:
if sensor.SensorType==u'Temperature':
print(sensor.Name)
print(sensor.Value)
Download http://openhardwaremonitor.org/downloads/ and http://www.cputhermometer.com/ and extract OpenHardwareMonitorLib.dll and CPUThermometerLib.dll and place these in a directory.
You can then use the pythonnet module to address the .dlls and pull any stat that these programs offer. cputhermometer offers per-core CPU temps, openhardwaremonitor offers everything else. No need to use WMI which requires the program to be active in the background.
I have written a small script (python 3.6.5) to show every temperature sensor available on the system, you can of course easily modify this for other sensor types. You must run this as administrator:
import clr #package pythonnet, not clr
openhardwaremonitor_hwtypes = ['Mainboard','SuperIO','CPU','RAM','GpuNvidia','GpuAti','TBalancer','Heatmaster','HDD']
cputhermometer_hwtypes = ['Mainboard','SuperIO','CPU','GpuNvidia','GpuAti','TBalancer','Heatmaster','HDD']
openhardwaremonitor_sensortypes = ['Voltage','Clock','Temperature','Load','Fan','Flow','Control','Level','Factor','Power','Data','SmallData']
cputhermometer_sensortypes = ['Voltage','Clock','Temperature','Load','Fan','Flow','Control','Level']
def initialize_openhardwaremonitor():
file = 'OpenHardwareMonitorLib.dll'
clr.AddReference(file)
from OpenHardwareMonitor import Hardware
handle = Hardware.Computer()
handle.MainboardEnabled = True
handle.CPUEnabled = True
handle.RAMEnabled = True
handle.GPUEnabled = True
handle.HDDEnabled = True
handle.Open()
return handle
def initialize_cputhermometer():
file = 'CPUThermometerLib.dll'
clr.AddReference(file)
from CPUThermometer import Hardware
handle = Hardware.Computer()
handle.CPUEnabled = True
handle.Open()
return handle
def fetch_stats(handle):
for i in handle.Hardware:
i.Update()
for sensor in i.Sensors:
parse_sensor(sensor)
for j in i.SubHardware:
j.Update()
for subsensor in j.Sensors:
parse_sensor(subsensor)
def parse_sensor(sensor):
if sensor.Value is not None:
if type(sensor).__module__ == 'CPUThermometer.Hardware':
sensortypes = cputhermometer_sensortypes
hardwaretypes = cputhermometer_hwtypes
elif type(sensor).__module__ == 'OpenHardwareMonitor.Hardware':
sensortypes = openhardwaremonitor_sensortypes
hardwaretypes = openhardwaremonitor_hwtypes
else:
return
if sensor.SensorType == sensortypes.index('Temperature'):
print(u"%s %s Temperature Sensor #%i %s - %s\u00B0C" % (hardwaretypes[sensor.Hardware.HardwareType], sensor.Hardware.Name, sensor.Index, sensor.Name, sensor.Value))
if __name__ == "__main__":
print("OpenHardwareMonitor:")
HardwareHandle = initialize_openhardwaremonitor()
fetch_stats(HardwareHandle)
print("\nCPUMonitor:")
CPUHandle = initialize_cputhermometer()
fetch_stats(CPUHandle)
Here is the output on my system:
OpenHardwareMonitor:
SuperIO Nuvoton NCT6791D Temperature Sensor #0 CPU Core - 42.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #1 Temperature #1 - 35.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #2 Temperature #2 - 34.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #3 Temperature #3 - 25.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #4 Temperature #4 - 101.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #5 Temperature #5 - 16.0°C
SuperIO Nuvoton NCT6791D Temperature Sensor #6 Temperature #6 - 14.0°C
GpuNvidia NVIDIA GeForce GTX 1070 Temperature Sensor #0 GPU Core - 60.0°C
HDD ST31000528AS Temperature Sensor #0 Temperature - 37.0°C
HDD WDC WD20EARX-00PASB0 Temperature Sensor #0 Temperature - 36.0°C
HDD WDC WDS100T2B0B-00YS70 Temperature Sensor #0 Temperature - 40.0°C
HDD WDC WD80EFZX-68UW8N0 Temperature Sensor #0 Temperature - 31.0°C
HDD WDC WD30EFRX-68EUZN0 Temperature Sensor #0 Temperature - 30.0°C
HDD WDC WD80EFZX-68UW8N0 Temperature Sensor #0 Temperature - 33.0°C
HDD Crucial_CT256MX100SSD1 Temperature Sensor #0 Temperature - 40.0°C
CPUMonitor:
CPU Intel Core i7-8700K Temperature Sensor #0 CPU Core #1 - 39.0°C
CPU Intel Core i7-8700K Temperature Sensor #1 CPU Core #2 - 38.0°C
CPU Intel Core i7-8700K Temperature Sensor #2 CPU Core #3 - 37.0°C
CPU Intel Core i7-8700K Temperature Sensor #3 CPU Core #4 - 41.0°C
CPU Intel Core i7-8700K Temperature Sensor #4 CPU Core #5 - 36.0°C
CPU Intel Core i7-8700K Temperature Sensor #5 CPU Core #6 - 47.0°C
For further documentation (however you should be able to infer everything you need from the above code), refer to the https://github.com/openhardwaremonitor/openhardwaremonitor/ (or cputhermometer, on the website) source code, the functions and methods are identical when you use these with python.
I haven't tested this on any other computers, so different processor architectures may not function identically.
Ensure you run Hardware[x].Update()
between taking measurements (and SubHardware[x].Update()
if needed).
You can use pywin32 to access the native Windows API. I believe it should be possible to query the Windows API for the CPU temperature if the manufacturer for your mainboard driver registers a WMI Data Provider through their driver. Assuming this is the case you could download the pywin32 extensions and the Python WMI module mentioned in the answer by ars, and then proceed as follows:
import wmi
w = wmi.WMI()
print w.Win32_TemperatureProbe()[0].CurrentReading
Looking at the IronPython script in the ars' answer there seems to be another way to do it too, using a different WMI object. Using the same API and approach you could try receiving the temperature value with
w = wmi.WMI(namespace="root\wmi")
temperature_info = w.MSAcpi_ThermalZoneTemperature()[0]
print temperature_info.CurrentTemperature
which apparently should return the temperature value in tenths of Kelvin, thus to receive the degree in Celsius I guess you just divide this value by 10 and subtract ~273.
I received a C++ project from a 3rd party and found how to get the CPU and Board Temp using C++. I then found this which I used to to help me mimic the C++ functions in python with ctypes, a lot of this code is copied directly from that repository. '\\.\AdvLmDev' is specific to the PC I was using, and should be replaced with '\\.\PhysicalDrive0'. There is also a function to get other CPU power measurements. I did this because I didn't want to use Open Hardware Monitor. You may have to run the code as administrator for it to work.
import ctypes
import ctypes.wintypes as wintypes
from ctypes import windll
LPDWORD = ctypes.POINTER(wintypes.DWORD)
LPOVERLAPPED = wintypes.LPVOID
LPSECURITY_ATTRIBUTES = wintypes.LPVOID
GENERIC_READ = 0x80000000
GENERIC_WRITE = 0x40000000
GENERIC_EXECUTE = 0x20000000
GENERIC_ALL = 0x10000000
FILE_SHARE_WRITE=0x00000004
ZERO=0x00000000
CREATE_NEW = 1
CREATE_ALWAYS = 2
OPEN_EXISTING = 3
OPEN_ALWAYS = 4
TRUNCATE_EXISTING = 5
FILE_ATTRIBUTE_NORMAL = 0x00000080
INVALID_HANDLE_VALUE = -1
FILE_DEVICE_UNKNOWN=0x00000022
METHOD_BUFFERED=0
FUNC=0x900
FILE_WRITE_ACCESS=0x002
NULL = 0
FALSE = wintypes.BOOL(0)
TRUE = wintypes.BOOL(1)
def CTL_CODE(DeviceType, Function, Method, Access): return (DeviceType << 16) | (Access << 14) | (Function <<2) | Method
def _CreateFile(filename, access, mode, creation, flags):
"""See: CreateFile function http://msdn.microsoft.com/en-us/library/windows/desktop/aa363858(v=vs.85).asp """
CreateFile_Fn = windll.kernel32.CreateFileW
CreateFile_Fn.argtypes = [
wintypes.LPWSTR, # _In_ LPCTSTR lpFileName
wintypes.DWORD, # _In_ DWORD dwDesiredAccess
wintypes.DWORD, # _In_ DWORD dwShareMode
LPSECURITY_ATTRIBUTES, # _In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes
wintypes.DWORD, # _In_ DWORD dwCreationDisposition
wintypes.DWORD, # _In_ DWORD dwFlagsAndAttributes
wintypes.HANDLE] # _In_opt_ HANDLE hTemplateFile
CreateFile_Fn.restype = wintypes.HANDLE
return wintypes.HANDLE(CreateFile_Fn(filename,
access,
mode,
NULL,
creation,
flags,
NULL))
handle=_CreateFile('\\\\.\\AdvLmDev',GENERIC_WRITE,FILE_SHARE_WRITE,OPEN_EXISTING,ZERO)
def _DeviceIoControl(devhandle, ioctl, inbuf, inbufsiz, outbuf, outbufsiz):
"""See: DeviceIoControl function
http://msdn.microsoft.com/en-us/library/aa363216(v=vs.85).aspx
"""
DeviceIoControl_Fn = windll.kernel32.DeviceIoControl
DeviceIoControl_Fn.argtypes = [
wintypes.HANDLE, # _In_ HANDLE hDevice
wintypes.DWORD, # _In_ DWORD dwIoControlCode
wintypes.LPVOID, # _In_opt_ LPVOID lpInBuffer
wintypes.DWORD, # _In_ DWORD nInBufferSize
wintypes.LPVOID, # _Out_opt_ LPVOID lpOutBuffer
wintypes.DWORD, # _In_ DWORD nOutBufferSize
LPDWORD, # _Out_opt_ LPDWORD lpBytesReturned
LPOVERLAPPED] # _Inout_opt_ LPOVERLAPPED lpOverlapped
DeviceIoControl_Fn.restype = wintypes.BOOL
# allocate a DWORD, and take its reference
dwBytesReturned = wintypes.DWORD(0)
lpBytesReturned = ctypes.byref(dwBytesReturned)
status = DeviceIoControl_Fn(devhandle,
ioctl,
inbuf,
inbufsiz,
outbuf,
outbufsiz,
lpBytesReturned,
NULL)
return status, dwBytesReturned
class OUTPUT_temp(ctypes.Structure):
"""See: http://msdn.microsoft.com/en-us/library/aa363972(v=vs.85).aspx"""
_fields_ = [
('Board Temp', wintypes.DWORD),
('CPU Temp', wintypes.DWORD),
('Board Temp2', wintypes.DWORD),
('temp4', wintypes.DWORD),
('temp5', wintypes.DWORD)
]
class OUTPUT_volt(ctypes.Structure):
"""See: http://msdn.microsoft.com/en-us/library/aa363972(v=vs.85).aspx"""
_fields_ = [
('VCore', wintypes.DWORD),
('V(in2)', wintypes.DWORD),
('3.3V', wintypes.DWORD),
('5.0V', wintypes.DWORD),
('temp5', wintypes.DWORD)
]
def get_temperature():
FUNC=0x900
outDict={}
ioclt=CTL_CODE(FILE_DEVICE_UNKNOWN, FUNC, METHOD_BUFFERED, FILE_WRITE_ACCESS)
handle=_CreateFile('\\\\.\\AdvLmDev',GENERIC_WRITE,FILE_SHARE_WRITE,OPEN_EXISTING,ZERO)
win_list = OUTPUT_temp()
p_win_list = ctypes.pointer(win_list)
SIZE=ctypes.sizeof(OUTPUT_temp)
status, output = _DeviceIoControl(handle, ioclt , NULL, ZERO, p_win_list, SIZE)
for field, typ in win_list._fields_:
#print ('%s=%d' % (field, getattr(disk_geometry, field)))
outDict[field]=getattr(win_list,field)
return outDict
def get_voltages():
FUNC=0x901
outDict={}
ioclt=CTL_CODE(FILE_DEVICE_UNKNOWN, FUNC, METHOD_BUFFERED, FILE_WRITE_ACCESS)
handle=_CreateFile('\\\\.\\AdvLmDev',GENERIC_WRITE,FILE_SHARE_WRITE,OPEN_EXISTING,ZERO)
win_list = OUTPUT_volt()
p_win_list = ctypes.pointer(win_list)
SIZE=ctypes.sizeof(OUTPUT_volt)
status, output = _DeviceIoControl(handle, ioclt , NULL, ZERO, p_win_list, SIZE)
for field, typ in win_list._fields_:
#print ('%s=%d' % (field, getattr(disk_geometry, field)))
outDict[field]=getattr(win_list,field)
return outDict
Check out the cputemp library.
EDIT: on windows, you might be able to convert this IronPython script which uses WMI using the python WMI library.
I have used the utility from https://github.com/BennyCarbajal/PyTherm
Pretty much install pythonnet with:
pip install pythonnet
Then just execute the terminal as administrator and finally execute the file:
python pytherm.py
It also works if you run it as a regular user but will not output as much data.
Since it returns the data in JSON format, it should be easy for you to just get the data of the specific hardware you are looking for.
The code offered by eadmaster may work for older CPUs that OpenHardwareMonitor has been programmed for, but I have a Skylake i7 6700K CPU. OpenHardwareMonitor offered no results for me. However, there is a fork of this program called CPU Thermometer, which is based on OpenHardwareMonitor which does recognize my CPU.
In chasing down how to get CPU temps via Python, I switched to IronPython in order to have access to the .Net framework and have easy access to other performance data, but it should be fairly easy to figure out how to retro fit it for vanilla Python 2.7 (Just run CPU Thermometer instead ofOpenHardwareMonitor and change your namespace to "root\CPUThermometer"? Could it be that simple?).
#
# CPU Temp --REQUIRES CPU TEMPERATURE TO BE RUNNING!--
#
import clr
clr.AddReference('System.Management')
from System.Management import (ManagementScope, ManagementObject, ManagementObjectSearcher, WqlObjectQuery)
scope = ManagementScope("root\CPUThermometer")
searcher = ManagementObjectSearcher(scope,
WqlObjectQuery("SELECT * FROM Sensor Where SensorType LIKE 'Temperature'"), None)
mo = ManagementObject()
print "\n"
print " Temp Min Max"
strout = str(' ')
for mo in searcher.Get():
strout = '{0} {1} C {2} C {3} C\n{4}'.format(mo["Name"], mo["Value"], mo["Min"], mo["Max"], strout)
print strout
Sample Output:
D:\IronPython 2.7>ipy64 c:\users\neamerjell\desktop\test.py
Temp Min Max
CPU Core #1 21.0 C 20.0 C 37.0 C
CPU Core #2 23.0 C 21.0 C 39.0 C
CPU Core #3 21.0 C 20.0 C 32.0 C
CPU Core #4 21.0 C 20.0 C 36.0 C
I found out the hard way that the query is not quite standard SQL and DOES NOT LIKE the "Order By" clause, so I had to do some fancy string formatting to get the order correct as the query returns the cores in reverse order. This baffled me for a bit until I devised this way around it.
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