Win32_PerfRawData_NETFramework_NETCLRLocksAndThreads python sample code

The foundations for Manageability in Windows is Windows Management Instrumentation (WMI; formerly WBEM) and WMI extensions for Windows Driver Model (WDM).

ActiveXperts Network Monitor provides the ability to build monitor check routines based on WMI. ActiveXperts has collected more than a hundred WMI samples. You can use these samples as a base for new check routines you can write yourself. The Win32_PerfRawData_NETFramework_NETCLRLocksAndThreads WMI class can be used in ActiveXperts Network Monitor to monitor your servers.

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Sample Code

import win32com.client
def WMIDateStringToDate(dtmDate):
    strDateTime = ""
    if (dtmDate[4] == 0):
        strDateTime = dtmDate[5] + '/'
    else:
        strDateTime = dtmDate[4] + dtmDate[5] + '/'
    if (dtmDate[6] == 0):
        strDateTime = strDateTime + dtmDate[7] + '/'
    else:
        strDateTime = strDateTime + dtmDate[6] + dtmDate[7] + '/'
        strDateTime = strDateTime + dtmDate[0] + dtmDate[1] + dtmDate[2] + dtmDate[3] + " " + dtmDate[8] + dtmDate[9] + ":" + dtmDate[10] + dtmDate[11] +':' + dtmDate[12] + dtmDate[13]
    return strDateTime

strComputer = "."
objWMIService = win32com.client.Dispatch("WbemScripting.SWbemLocator")
objSWbemServices = objWMIService.ConnectServer(strComputer,"root\cimv2")
colItems = objSWbemServices.ExecQuery("SELECT * FROM Win32_PerfRawData_NETFramework_NETCLRLocksAndThreads")
for objItem in colItems:
    if objItem.Caption != None:
        print "Caption:" + ` objItem.Caption`
    if objItem.ContentionRatePersec != None:
        print "ContentionRatePersec:" + ` objItem.ContentionRatePersec`
    if objItem.CurrentQueueLength != None:
        print "CurrentQueueLength:" + ` objItem.CurrentQueueLength`
    if objItem.Description != None:
        print "Description:" + ` objItem.Description`
    if objItem.Frequency_Object != None:
        print "Frequency_Object:" + ` objItem.Frequency_Object`
    if objItem.Frequency_PerfTime != None:
        print "Frequency_PerfTime:" + ` objItem.Frequency_PerfTime`
    if objItem.Frequency_Sys100NS != None:
        print "Frequency_Sys100NS:" + ` objItem.Frequency_Sys100NS`
    if objItem.Name != None:
        print "Name:" + ` objItem.Name`
    if objItem.NumberofcurrentlogicalThreads != None:
        print "NumberofcurrentlogicalThreads:" + ` objItem.NumberofcurrentlogicalThreads`
    if objItem.NumberofcurrentphysicalThreads != None:
        print "NumberofcurrentphysicalThreads:" + ` objItem.NumberofcurrentphysicalThreads`
    if objItem.Numberofcurrentrecognizedthreads != None:
        print "Numberofcurrentrecognizedthreads:" + ` objItem.Numberofcurrentrecognizedthreads`
    if objItem.Numberoftotalrecognizedthreads != None:
        print "Numberoftotalrecognizedthreads:" + ` objItem.Numberoftotalrecognizedthreads`
    if objItem.QueueLengthPeak != None:
        print "QueueLengthPeak:" + ` objItem.QueueLengthPeak`
    if objItem.QueueLengthPersec != None:
        print "QueueLengthPersec:" + ` objItem.QueueLengthPersec`
    if objItem.rateofrecognizedthreadsPersec != None:
        print "rateofrecognizedthreadsPersec:" + ` objItem.rateofrecognizedthreadsPersec`
    if objItem.Timestamp_Object != None:
        print "Timestamp_Object:" + ` objItem.Timestamp_Object`
    if objItem.Timestamp_PerfTime != None:
        print "Timestamp_PerfTime:" + ` objItem.Timestamp_PerfTime`
    if objItem.Timestamp_Sys100NS != None:
        print "Timestamp_Sys100NS:" + ` objItem.Timestamp_Sys100NS`
    if objItem.TotalNumberofContentions != None:
        print "TotalNumberofContentions:" + ` objItem.TotalNumberofContentions`