Win32_PerfFormattedData_PerfNet_ServerWorkQueues 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_PerfFormattedData_PerfNet_ServerWorkQueues WMI class can be used in ActiveXperts Network Monitor to monitor your servers.
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_PerfFormattedData_PerfNet_ServerWorkQueues") for objItem in colItems: if objItem.ActiveThreads != None: print "ActiveThreads:" + ` objItem.ActiveThreads` if objItem.AvailableThreads != None: print "AvailableThreads:" + ` objItem.AvailableThreads` if objItem.AvailableWorkItems != None: print "AvailableWorkItems:" + ` objItem.AvailableWorkItems` if objItem.BorrowedWorkItems != None: print "BorrowedWorkItems:" + ` objItem.BorrowedWorkItems` if objItem.BytesReceivedPersec != None: print "BytesReceivedPersec:" + ` objItem.BytesReceivedPersec` if objItem.BytesSentPersec != None: print "BytesSentPersec:" + ` objItem.BytesSentPersec` if objItem.BytesTransferredPersec != None: print "BytesTransferredPersec:" + ` objItem.BytesTransferredPersec` if objItem.Caption != None: print "Caption:" + ` objItem.Caption` if objItem.ContextBlocksQueuedPersec != None: print "ContextBlocksQueuedPersec:" + ` objItem.ContextBlocksQueuedPersec` if objItem.CurrentClients != None: print "CurrentClients:" + ` objItem.CurrentClients` 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.QueueLength != None: print "QueueLength:" + ` objItem.QueueLength` if objItem.ReadBytesPersec != None: print "ReadBytesPersec:" + ` objItem.ReadBytesPersec` if objItem.ReadOperationsPersec != None: print "ReadOperationsPersec:" + ` objItem.ReadOperationsPersec` 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.TotalBytesPersec != None: print "TotalBytesPersec:" + ` objItem.TotalBytesPersec` if objItem.TotalOperationsPersec != None: print "TotalOperationsPersec:" + ` objItem.TotalOperationsPersec` if objItem.WorkItemShortages != None: print "WorkItemShortages:" + ` objItem.WorkItemShortages` if objItem.WriteBytesPersec != None: print "WriteBytesPersec:" + ` objItem.WriteBytesPersec` if objItem.WriteOperationsPersec != None: print "WriteOperationsPersec:" + ` objItem.WriteOperationsPersec`