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Use gval in LikwidCollector

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This commit is contained in:
Thomas Roehl 2022-02-01 16:01:31 +01:00
parent 3e329c3324
commit e550226416
1 changed files with 289 additions and 89 deletions
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322
collectors/likwidMetric.go
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@ -13,39 +13,58 @@ import (
"errors" "errors"
"fmt" "fmt"
"io/ioutil" "io/ioutil"
"log"
"math" "math"
"os" "os"
"regexp"
"strconv" "strconv"
"strings" "strings"
"time" "time"
"unsafe" "unsafe"
cclog "github.com/ClusterCockpit/cc-metric-collector/internal/ccLogger"
lp "github.com/ClusterCockpit/cc-metric-collector/internal/ccMetric" lp "github.com/ClusterCockpit/cc-metric-collector/internal/ccMetric"
"gopkg.in/Knetic/govaluate.v2" topo "github.com/ClusterCockpit/cc-metric-collector/internal/ccTopology"
"github.com/PaesslerAG/gval"
) )
type MetricScope int type MetricScope string
const ( const (
METRIC_SCOPE_HWTHREAD = iota METRIC_SCOPE_HWTHREAD = iota
METRIC_SCOPE_SOCKET METRIC_SCOPE_CORE
METRIC_SCOPE_LLC
METRIC_SCOPE_NUMA METRIC_SCOPE_NUMA
METRIC_SCOPE_DIE
METRIC_SCOPE_SOCKET
METRIC_SCOPE_NODE METRIC_SCOPE_NODE
) )
func (ms MetricScope) String() string { func (ms MetricScope) String() string {
return []string{"Head", "Shoulder", "Knee", "Toe"}[ms] return string(ms)
}
func (ms MetricScope) Granularity() int {
grans := []string{"hwthread", "core", "llc", "numadomain", "die", "socket", "node"}
for i, g := range grans {
if ms.String() == g {
return i
}
}
return -1
} }
type LikwidCollectorMetricConfig struct { type LikwidCollectorMetricConfig struct {
Name string `json:"name"` Name string `json:"name"` // Name of the metric
Calc string `json:"calc"` Calc string `json:"calc"` // Calculation for the metric using
Scope MetricScope `json:"socket_scope"` Aggr string `json:"aggregation"` // if scope unequal to LIKWID metric scope, the values are combined (sum, min, max, mean or avg, median)
Scope MetricScope `json:"scope"` // scope for calculation. subscopes are aggregated using the 'aggregation' function
Publish bool `json:"publish"` Publish bool `json:"publish"`
granulatity MetricScope
} }
type LikwidCollectorEventsetConfig struct { type LikwidCollectorEventsetConfig struct {
Events map[string]string `json:"events"` Events map[string]string `json:"events"`
granulatity map[string]MetricScope
Metrics []LikwidCollectorMetricConfig `json:"metrics"` Metrics []LikwidCollectorMetricConfig `json:"metrics"`
} }
@ -67,12 +86,13 @@ type LikwidCollector struct {
mresults map[int]map[int]map[string]float64 mresults map[int]map[int]map[string]float64
gmresults map[int]map[string]float64 gmresults map[int]map[string]float64
basefreq float64 basefreq float64
running bool
} }
type LikwidMetric struct { type LikwidMetric struct {
name string name string
search string search string
socket_scope bool scope MetricScope
group_idx int group_idx int
} }
@ -84,6 +104,21 @@ func eventsToEventStr(events map[string]string) string {
return strings.Join(elist, ",") return strings.Join(elist, ",")
} }
func getGranularity(counter, event string) MetricScope {
if strings.HasPrefix(counter, "PMC") || strings.HasPrefix(counter, "FIXC") {
return "hwthread"
} else if strings.Contains(counter, "BOX") || strings.Contains(counter, "DEV") {
return "socket"
} else if strings.HasPrefix(counter, "PWR") {
if event == "RAPL_CORE_ENERGY" {
return "hwthread"
} else {
return "socket"
}
}
return "unknown"
}
func getBaseFreq() float64 { func getBaseFreq() float64 {
var freq float64 = math.NaN() var freq float64 = math.NaN()
C.power_init(0) C.power_init(0)
@ -117,6 +152,53 @@ func getSocketCpus() map[C.int]int {
return outmap return outmap
} }
func (m *LikwidCollector) CatchGvalPanic() {
if rerr := recover(); rerr != nil {
cclog.ComponentError(m.name, "Gval failed to calculate a metric", rerr)
m.init = false
}
}
func (m *LikwidCollector) initGranularity() {
for _, evset := range m.config.Eventsets {
evset.granulatity = make(map[string]MetricScope)
for counter, event := range evset.Events {
gran := getGranularity(counter, event)
if gran.Granularity() >= 0 {
evset.granulatity[counter] = gran
}
}
for i, metric := range evset.Metrics {
s := regexp.MustCompile("[+-/*()]").Split(metric.Calc, -1)
gran := MetricScope("hwthread")
evset.Metrics[i].granulatity = gran
for _, x := range s {
if _, ok := evset.Events[x]; ok {
if evset.granulatity[x].Granularity() > gran.Granularity() {
gran = evset.granulatity[x]
}
}
}
evset.Metrics[i].granulatity = gran
}
}
for i, metric := range m.config.Metrics {
s := regexp.MustCompile("[+-/*()]").Split(metric.Calc, -1)
gran := MetricScope("hwthread")
m.config.Metrics[i].granulatity = gran
for _, x := range s {
for _, evset := range m.config.Eventsets {
for _, m := range evset.Metrics {
if m.Name == x && m.granulatity.Granularity() > gran.Granularity() {
gran = m.granulatity
}
}
}
}
m.config.Metrics[i].granulatity = gran
}
}
func (m *LikwidCollector) Init(config json.RawMessage) error { func (m *LikwidCollector) Init(config json.RawMessage) error {
var ret C.int var ret C.int
m.name = "LikwidCollector" m.name = "LikwidCollector"
@ -126,38 +208,70 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
return err return err
} }
} }
m.initGranularity()
if m.config.ForceOverwrite {
os.Setenv("LIKWID_FORCE", "1")
}
m.setup() m.setup()
m.meta = map[string]string{"source": m.name, "group": "PerfCounter"} // in some cases, gval causes a panic. We catch it with the handler and deactivate
cpulist := CpuList() // the collector (m.init = false).
m.cpulist = make([]C.int, len(cpulist)) defer m.CatchGvalPanic()
slist := getSocketCpus()
m.meta = map[string]string{"source": m.name, "group": "PerfCounter"}
cpulist := topo.CpuList()
m.cpulist = make([]C.int, len(cpulist))
cclog.ComponentDebug(m.name, "Create maps for socket, numa, core and die metrics")
m.sock2tid = make(map[int]int) m.sock2tid = make(map[int]int)
// m.numa2tid = make(map[int]int) // m.numa2tid = make(map[int]int)
// m.core2tid = make(map[int]int)
// m.die2tid = make(map[int]int)
for i, c := range cpulist { for i, c := range cpulist {
m.cpulist[i] = C.int(c) m.cpulist[i] = C.int(c)
if sid, found := slist[m.cpulist[i]]; found { m.sock2tid[topo.GetCpuSocket(c)] = i
m.sock2tid[sid] = i // m.numa2tid[topo.GetCpuNumaDomain(c)] = i
} // m.core2tid[topo.GetCpuCore(c)] = i
// m.die2tid[topo.GetCpuDie(c)] = i
} }
m.results = make(map[int]map[int]map[string]interface{}) m.results = make(map[int]map[int]map[string]interface{})
m.mresults = make(map[int]map[int]map[string]float64) m.mresults = make(map[int]map[int]map[string]float64)
m.gmresults = make(map[int]map[string]float64) m.gmresults = make(map[int]map[string]float64)
ret = C.topology_init() ret = C.topology_init()
if ret != 0 { if ret != 0 {
return errors.New("Failed to initialize LIKWID topology") err := errors.New("failed to initialize LIKWID topology")
} cclog.ComponentError(m.name, err.Error())
if m.config.ForceOverwrite { return err
os.Setenv("LIKWID_FORCE", "1")
} }
ret = C.perfmon_init(C.int(len(m.cpulist)), &m.cpulist[0]) ret = C.perfmon_init(C.int(len(m.cpulist)), &m.cpulist[0])
if ret != 0 { if ret != 0 {
C.topology_finalize() C.topology_finalize()
return errors.New("Failed to initialize LIKWID topology") err := errors.New("failed to initialize LIKWID topology")
cclog.ComponentError(m.name, err.Error())
return err
} }
globalParams := make(map[string]interface{})
globalParams["time"] = float64(1.0)
globalParams["inverseClock"] = float64(1.0)
for i, evset := range m.config.Eventsets { for i, evset := range m.config.Eventsets {
estr := eventsToEventStr(evset.Events) estr := eventsToEventStr(evset.Events)
params := make(map[string]interface{})
params["time"] = float64(1.0)
params["inverseClock"] = float64(1.0)
for counter, _ := range evset.Events {
params[counter] = float64(1.0)
}
for _, metric := range evset.Metrics {
_, err := gval.Evaluate(metric.Calc, params, gval.Full())
if err != nil {
cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error())
continue
}
if _, ok := globalParams[metric.Name]; !ok {
globalParams[metric.Name] = float64(1.0)
}
}
cstr := C.CString(estr) cstr := C.CString(estr)
gid := C.perfmon_addEventSet(cstr) gid := C.perfmon_addEventSet(cstr)
if gid >= 0 { if gid >= 0 {
@ -172,95 +286,173 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
m.gmresults[tid] = make(map[string]float64) m.gmresults[tid] = make(map[string]float64)
} }
} }
for _, metric := range m.config.Metrics {
_, err := gval.Evaluate(metric.Calc, globalParams, gval.Full())
if err != nil {
cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error())
continue
}
}
if len(m.groups) == 0 { if len(m.groups) == 0 {
C.perfmon_finalize() C.perfmon_finalize()
C.topology_finalize() C.topology_finalize()
return errors.New("No LIKWID performance group initialized") err := errors.New("no LIKWID performance group initialized")
cclog.ComponentError(m.name, err.Error())
return err
} }
m.basefreq = getBaseFreq() m.basefreq = getBaseFreq()
m.init = true m.init = true
return nil return nil
} }
func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric) { func (m *LikwidCollector) takeMeasurement(group int, interval time.Duration) error {
if !m.init {
return
}
var ret C.int var ret C.int
gid := m.groups[group]
for i, gid := range m.groups {
evset := m.config.Eventsets[i]
ret = C.perfmon_setupCounters(gid) ret = C.perfmon_setupCounters(gid)
if ret != 0 { if ret != 0 {
log.Print("Failed to setup performance group ", C.perfmon_getGroupName(gid)) gctr := C.GoString(C.perfmon_getGroupName(gid))
continue err := fmt.Errorf("failed to setup performance group %s", gctr)
cclog.ComponentError(m.name, err.Error())
return err
} }
ret = C.perfmon_startCounters() ret = C.perfmon_startCounters()
if ret != 0 { if ret != 0 {
log.Print("Failed to start performance group ", C.perfmon_getGroupName(gid)) gctr := C.GoString(C.perfmon_getGroupName(gid))
continue err := fmt.Errorf("failed to start performance group %s", gctr)
cclog.ComponentError(m.name, err.Error())
return err
} }
m.running = true
time.Sleep(interval) time.Sleep(interval)
m.running = false
ret = C.perfmon_stopCounters() ret = C.perfmon_stopCounters()
if ret != 0 { if ret != 0 {
log.Print("Failed to stop performance group ", C.perfmon_getGroupName(gid)) gctr := C.GoString(C.perfmon_getGroupName(gid))
continue err := fmt.Errorf("failed to stop performance group %s", gctr)
cclog.ComponentError(m.name, err.Error())
return err
} }
return nil
}
func (m *LikwidCollector) calcEventsetMetrics(group int, interval time.Duration) error {
var eidx C.int var eidx C.int
evset := m.config.Eventsets[group]
gid := m.groups[group]
for tid := range m.cpulist { for tid := range m.cpulist {
for eidx = 0; int(eidx) < len(evset.Events); eidx++ { for eidx = 0; int(eidx) < len(evset.Events); eidx++ {
ctr := C.perfmon_getCounterName(gid, eidx) ctr := C.perfmon_getCounterName(gid, eidx)
gctr := C.GoString(ctr) gctr := C.GoString(ctr)
res := C.perfmon_getLastResult(gid, eidx, C.int(tid)) res := C.perfmon_getLastResult(gid, eidx, C.int(tid))
m.results[i][tid][gctr] = float64(res) m.results[group][tid][gctr] = float64(res)
if m.results[group][tid][gctr] == 0 {
m.results[group][tid][gctr] = 1.0
} }
m.results[i][tid]["time"] = interval.Seconds() }
m.results[i][tid]["inverseClock"] = float64(1.0 / m.basefreq) m.results[group][tid]["time"] = interval.Seconds()
m.results[group][tid]["inverseClock"] = float64(1.0 / m.basefreq)
for _, metric := range evset.Metrics { for _, metric := range evset.Metrics {
expression, err := govaluate.NewEvaluableExpression(metric.Calc) value, err := gval.Evaluate(metric.Calc, m.results[group][tid], gval.Full())
if err != nil { if err != nil {
log.Print(err.Error()) cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error())
continue continue
} }
result, err := expression.Evaluate(m.results[i][tid]) m.mresults[group][tid][metric.Name] = value.(float64)
if err != nil {
log.Print(err.Error())
continue
}
m.mresults[i][tid][metric.Name] = float64(result.(float64))
}
} }
} }
return nil
}
func (m *LikwidCollector) calcGlobalMetrics(interval time.Duration) error {
for _, metric := range m.config.Metrics { for _, metric := range m.config.Metrics {
for tid := range m.cpulist { for tid := range m.cpulist {
var params map[string]interface{} params := make(map[string]interface{})
expression, err := govaluate.NewEvaluableExpression(metric.Calc)
if err != nil {
log.Print(err.Error())
continue
}
params = make(map[string]interface{})
for j := range m.groups { for j := range m.groups {
for mname, mres := range m.mresults[j][tid] { for mname, mres := range m.mresults[j][tid] {
params[mname] = mres params[mname] = mres
} }
} }
result, err := expression.Evaluate(params) value, err := gval.Evaluate(metric.Calc, params, gval.Full())
if err != nil { if err != nil {
log.Print(err.Error()) cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error())
continue continue
} }
m.gmresults[tid][metric.Name] = float64(result.(float64)) m.gmresults[tid][metric.Name] = value.(float64)
} }
} }
return nil
}
// func (m *LikwidCollector) calcResultMetrics(interval time.Duration) ([]lp.CCMetric, error) {
// var err error = nil
// metrics := make([]lp.CCMetric, 0)
// for i := range m.groups {
// evset := m.config.Eventsets[i]
// for _, metric := range evset.Metrics {
// log.Print(metric.Name, " ", metric.Scope, " ", metric.granulatity)
// if metric.Scope.Granularity() > metric.granulatity.Granularity() {
// log.Print("Different granularity wanted for ", metric.Name, ": ", metric.Scope, " vs ", metric.granulatity)
// var idlist []int
// idfunc := func(cpuid int) int { return cpuid }
// switch metric.Scope {
// case "socket":
// idlist = topo.SocketList()
// idfunc = topo.GetCpuSocket
// case "numa":
// idlist = topo.NumaNodeList()
// idfunc = topo.GetCpuNumaDomain
// case "core":
// idlist = topo.CoreList()
// idfunc = topo.GetCpuCore
// case "die":
// idlist = topo.DieList()
// idfunc = topo.GetCpuDie
// case "node":
// idlist = topo.CpuList()
// }
// for i := 0; i < num_results; i++ {
// }
// }
// }
// }
// for _, metric := range m.config.Metrics {
// log.Print(metric.Name, " ", metric.Scope, " ", metric.granulatity)
// if metric.Scope.Granularity() > metric.granulatity.Granularity() {
// log.Print("Different granularity wanted for ", metric.Name, ": ", metric.Scope, " vs ", metric.granulatity)
// }
// }
// return metrics, err
// }
func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric) {
if !m.init {
return
}
defer m.CatchGvalPanic()
for i, _ := range m.groups {
// measure event set 'i' for 'interval' seconds
err := m.takeMeasurement(i, interval)
if err != nil {
cclog.ComponentError(m.name, err.Error())
continue
}
m.calcEventsetMetrics(i, interval)
}
m.calcGlobalMetrics(interval)
//metrics, err = m.calcResultMetrics(interval)
for i := range m.groups { for i := range m.groups {
evset := m.config.Eventsets[i] evset := m.config.Eventsets[i]
for _, metric := range evset.Metrics { for _, metric := range evset.Metrics {
_, skip := stringArrayContains(m.config.ExcludeMetrics, metric.Name) _, skip := stringArrayContains(m.config.ExcludeMetrics, metric.Name)
if metric.Publish && !skip { if metric.Publish && !skip {
if metric.Scope.String() == "socket" { if metric.Scope == "socket" {
for sid, tid := range m.sock2tid { for sid, tid := range m.sock2tid {
y, err := lp.New(metric.Name, y, err := lp.New(metric.Name,
map[string]string{"type": "socket", map[string]string{"type": "socket",
@ -272,7 +464,7 @@ func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric)
output <- y output <- y
} }
} }
} else if metric.Scope.String() == "hwthread" { } else if metric.Scope == "hwthread" {
for tid, cpu := range m.cpulist { for tid, cpu := range m.cpulist {
y, err := lp.New(metric.Name, y, err := lp.New(metric.Name,
map[string]string{"type": "cpu", map[string]string{"type": "cpu",
@ -291,7 +483,7 @@ func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric)
for _, metric := range m.config.Metrics { for _, metric := range m.config.Metrics {
_, skip := stringArrayContains(m.config.ExcludeMetrics, metric.Name) _, skip := stringArrayContains(m.config.ExcludeMetrics, metric.Name)
if metric.Publish && !skip { if metric.Publish && !skip {
if metric.Scope.String() == "socket" { if metric.Scope == "socket" {
for sid, tid := range m.sock2tid { for sid, tid := range m.sock2tid {
y, err := lp.New(metric.Name, y, err := lp.New(metric.Name,
map[string]string{"type": "socket", map[string]string{"type": "socket",
@ -303,7 +495,7 @@ func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric)
output <- y output <- y
} }
} }
} else { } else if metric.Scope == "hwthread" {
for tid, cpu := range m.cpulist { for tid, cpu := range m.cpulist {
y, err := lp.New(metric.Name, y, err := lp.New(metric.Name,
map[string]string{"type": "cpu", map[string]string{"type": "cpu",
@ -322,8 +514,16 @@ func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric)
func (m *LikwidCollector) Close() { func (m *LikwidCollector) Close() {
if m.init { if m.init {
cclog.ComponentDebug(m.name, "Closing ...")
m.init = false m.init = false
if m.running {
cclog.ComponentDebug(m.name, "Stopping counters")
C.perfmon_stopCounters()
}
cclog.ComponentDebug(m.name, "Finalize LIKWID perfmon module")
C.perfmon_finalize() C.perfmon_finalize()
cclog.ComponentDebug(m.name, "Finalize LIKWID topology module")
C.topology_finalize() C.topology_finalize()
cclog.ComponentDebug(m.name, "Closing done")
} }
} }