// +build windows package win_perf_counters import ( "errors" "fmt" "strings" "unsafe" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/registry/inputs" ) var sampleConfig string = ` ## By default this plugin returns basic CPU and Disk statistics. ## See the README file for more examples. ## Uncomment examples below or write your own as you see fit. If the system ## being polled for data does not have the Object at startup of the Telegraf ## agent, it will not be gathered. ## Settings: # PrintValid = false # Print All matching performance counters [[inputs.win_perf_counters.object]] # Processor usage, alternative to native, reports on a per core. ObjectName = "Processor" Instances = ["*"] Counters = [ "%% Idle Time", "%% Interrupt Time", "%% Privileged Time", "%% User Time", "%% Processor Time" ] Measurement = "win_cpu" # Set to true to include _Total instance when querying for all (*). # IncludeTotal=false # Print out when the performance counter is missing from object, counter or instance. # WarnOnMissing = false [[inputs.win_perf_counters.object]] # Disk times and queues ObjectName = "LogicalDisk" Instances = ["*"] Counters = [ "%% Idle Time", "%% Disk Time","%% Disk Read Time", "%% Disk Write Time", "%% User Time", "Current Disk Queue Length" ] Measurement = "win_disk" [[inputs.win_perf_counters.object]] ObjectName = "System" Counters = ["Context Switches/sec","System Calls/sec"] Instances = ["------"] Measurement = "win_system" [[inputs.win_perf_counters.object]] # Example query where the Instance portion must be removed to get data back, # such as from the Memory object. ObjectName = "Memory" Counters = [ "Available Bytes", "Cache Faults/sec", "Demand Zero Faults/sec", "Page Faults/sec", "Pages/sec", "Transition Faults/sec", "Pool Nonpaged Bytes", "Pool Paged Bytes" ] Instances = ["------"] # Use 6 x - to remove the Instance bit from the query. Measurement = "win_mem" ` // Valid queries end up in this map. var gItemList = make(map[int]*item) var configParsed bool var testConfigParsed bool var testObject string type Win_PerfCounters struct { PrintValid bool TestName string PreVistaSupport bool Object []perfobject } type perfobject struct { ObjectName string Counters []string Instances []string Measurement string WarnOnMissing bool FailOnMissing bool IncludeTotal bool } // Parsed configuration ends up here after it has been validated for valid // Performance Counter paths type itemList struct { items map[int]*item } type item struct { query string objectName string counter string instance string measurement string include_total bool handle PDH_HQUERY counterHandle PDH_HCOUNTER } var sanitizedChars = strings.NewReplacer("/sec", "_persec", "/Sec", "_persec", " ", "_", "%", "Percent", `\`, "") func (m *Win_PerfCounters) AddItem(metrics *itemList, query string, objectName string, counter string, instance string, measurement string, include_total bool) error { var handle PDH_HQUERY var counterHandle PDH_HCOUNTER ret := PdhOpenQuery(0, 0, &handle) if m.PreVistaSupport { ret = PdhAddCounter(handle, query, 0, &counterHandle) } else { ret = PdhAddEnglishCounter(handle, query, 0, &counterHandle) } // Call PdhCollectQueryData one time to check existance of the counter ret = PdhCollectQueryData(handle) if ret != ERROR_SUCCESS { ret = PdhCloseQuery(handle) return errors.New("Invalid query for Performance Counters") } temp := &item{query, objectName, counter, instance, measurement, include_total, handle, counterHandle} index := len(gItemList) gItemList[index] = temp if metrics.items == nil { metrics.items = make(map[int]*item) } metrics.items[index] = temp return nil } func (m *Win_PerfCounters) Description() string { return "Input plugin to query Performance Counters on Windows operating systems" } func (m *Win_PerfCounters) SampleConfig() string { return sampleConfig } func (m *Win_PerfCounters) ParseConfig(metrics *itemList) error { var query string configParsed = true if len(m.Object) > 0 { for _, PerfObject := range m.Object { for _, counter := range PerfObject.Counters { for _, instance := range PerfObject.Instances { objectname := PerfObject.ObjectName if instance == "------" { query = "\\" + objectname + "\\" + counter } else { query = "\\" + objectname + "(" + instance + ")\\" + counter } err := m.AddItem(metrics, query, objectname, counter, instance, PerfObject.Measurement, PerfObject.IncludeTotal) if err == nil { if m.PrintValid { fmt.Printf("Valid: %s\n", query) } } else { if PerfObject.FailOnMissing || PerfObject.WarnOnMissing { fmt.Printf("Invalid query: %s\n", query) } if PerfObject.FailOnMissing { return err } } } } } return nil } else { err := errors.New("No performance objects configured!") return err } } func (m *Win_PerfCounters) Cleanup(metrics *itemList) { // Cleanup for _, metric := range metrics.items { ret := PdhCloseQuery(metric.handle) _ = ret } } func (m *Win_PerfCounters) CleanupTestMode() { // Cleanup for the testmode. for _, metric := range gItemList { ret := PdhCloseQuery(metric.handle) _ = ret } } func (m *Win_PerfCounters) Gather(acc telegraf.Accumulator) error { metrics := itemList{} // Both values are empty in normal use. if m.TestName != testObject { // Cleanup any handles before emptying the global variable containing valid queries. m.CleanupTestMode() gItemList = make(map[int]*item) testObject = m.TestName testConfigParsed = true configParsed = false } // We only need to parse the config during the init, it uses the global variable after. if configParsed == false { err := m.ParseConfig(&metrics) if err != nil { return err } } var bufSize uint32 var bufCount uint32 var size uint32 = uint32(unsafe.Sizeof(PDH_FMT_COUNTERVALUE_ITEM_DOUBLE{})) var emptyBuf [1]PDH_FMT_COUNTERVALUE_ITEM_DOUBLE // need at least 1 addressable null ptr. // For iterate over the known metrics and get the samples. for _, metric := range gItemList { // collect ret := PdhCollectQueryData(metric.handle) if ret == ERROR_SUCCESS { ret = PdhGetFormattedCounterArrayDouble(metric.counterHandle, &bufSize, &bufCount, &emptyBuf[0]) // uses null ptr here according to MSDN. if ret == PDH_MORE_DATA { filledBuf := make([]PDH_FMT_COUNTERVALUE_ITEM_DOUBLE, bufCount*size) if len(filledBuf) == 0 { continue } ret = PdhGetFormattedCounterArrayDouble(metric.counterHandle, &bufSize, &bufCount, &filledBuf[0]) for i := 0; i < int(bufCount); i++ { c := filledBuf[i] var s string = UTF16PtrToString(c.SzName) var add bool if metric.include_total { // If IncludeTotal is set, include all. add = true } else if metric.instance == "*" && !strings.Contains(s, "_Total") { // Catch if set to * and that it is not a '*_Total*' instance. add = true } else if metric.instance == s { // Catch if we set it to total or some form of it add = true } else if metric.instance == "------" { add = true } if add { fields := make(map[string]interface{}) tags := make(map[string]string) if s != "" { tags["instance"] = s } tags["objectname"] = metric.objectName fields[sanitizedChars.Replace(metric.counter)] = float32(c.FmtValue.DoubleValue) measurement := sanitizedChars.Replace(metric.measurement) if measurement == "" { measurement = "win_perf_counters" } acc.AddFields(measurement, fields, tags) } } filledBuf = nil // Need to at least set bufSize to zero, because if not, the function will not // return PDH_MORE_DATA and will not set the bufSize. bufCount = 0 bufSize = 0 } } } return nil } func init() { inputs.Add("win_perf_counters", func() telegraf.Input { return &Win_PerfCounters{} }) }