Use late initialization of LIKWID and catch access daemon death. Fixes #70 and fixes #71.

This commit is contained in:
Thomas Roehl 2022-03-24 17:56:51 +01:00
parent 296225f3a8
commit e0e91844bc

View File

@ -15,8 +15,11 @@ import (
"io/ioutil" "io/ioutil"
"math" "math"
"os" "os"
"os/signal"
"strconv" "strconv"
"strings" "strings"
"sync"
"syscall"
"time" "time"
"unsafe" "unsafe"
@ -46,6 +49,15 @@ type LikwidCollectorEventsetConfig struct {
Metrics []LikwidCollectorMetricConfig `json:"metrics"` Metrics []LikwidCollectorMetricConfig `json:"metrics"`
} }
type LikwidEventsetConfig struct {
internal int
gid C.int
eorder []*C.char
estr *C.char
results map[int]map[string]interface{}
metrics map[int]map[string]float64
}
type LikwidCollectorConfig struct { type LikwidCollectorConfig struct {
Eventsets []LikwidCollectorEventsetConfig `json:"eventsets"` Eventsets []LikwidCollectorEventsetConfig `json:"eventsets"`
Metrics []LikwidCollectorMetricConfig `json:"globalmetrics,omitempty"` Metrics []LikwidCollectorMetricConfig `json:"globalmetrics,omitempty"`
@ -64,11 +76,12 @@ type LikwidCollector struct {
metrics map[C.int]map[string]int metrics map[C.int]map[string]int
groups []C.int groups []C.int
config LikwidCollectorConfig config LikwidCollectorConfig
results map[int]map[int]map[string]interface{}
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 running bool
initialized bool
likwidGroups map[C.int]LikwidEventsetConfig
lock sync.Mutex
} }
type LikwidMetric struct { type LikwidMetric struct {
@ -86,6 +99,45 @@ func eventsToEventStr(events map[string]string) string {
return strings.Join(elist, ",") return strings.Join(elist, ",")
} }
func genLikwidEventSet(input LikwidCollectorEventsetConfig) LikwidEventsetConfig {
tmplist := make([]string, 0)
elist := make([]*C.char, 0)
for k, v := range input.Events {
tmplist = append(tmplist, fmt.Sprintf("%s:%s", v, k))
c_counter := C.CString(k)
elist = append(elist, c_counter)
}
estr := strings.Join(tmplist, ",")
res := make(map[int]map[string]interface{})
met := make(map[int]map[string]float64)
for _, i := range topo.CpuList() {
res[i] = make(map[string]interface{})
for k := range input.Events {
res[i][k] = 0.0
}
met[i] = make(map[string]float64)
for _, v := range input.Metrics {
res[i][v.Name] = 0.0
}
}
return LikwidEventsetConfig{
gid: -1,
eorder: elist,
estr: C.CString(estr),
results: res,
metrics: met,
}
}
func testLikwidMetricFormula(formula string, params []string) bool {
myparams := make(map[string]interface{})
for _, p := range params {
myparams[p] = float64(1.0)
}
_, err := agg.EvalFloat64Condition(formula, myparams)
return err == nil
}
func getBaseFreq() float64 { func getBaseFreq() float64 {
var freq float64 = math.NaN() var freq float64 = math.NaN()
C.power_init(0) C.power_init(0)
@ -108,6 +160,8 @@ func getBaseFreq() float64 {
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"
m.initialized = false
m.running = false
m.config.AccessMode = LIKWID_DEF_ACCESSMODE m.config.AccessMode = LIKWID_DEF_ACCESSMODE
m.config.LibraryPath = LIKWID_LIB_NAME m.config.LibraryPath = LIKWID_LIB_NAME
if len(config) > 0 { if len(config) > 0 {
@ -140,6 +194,15 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
m.cpulist[i] = C.int(c) m.cpulist[i] = C.int(c)
m.cpu2tid[c] = i m.cpu2tid[c] = i
} }
cclog.ComponentDebug(m.name, "initialize LIKWID topology")
ret = C.topology_init()
if ret != 0 {
err := errors.New("failed to initialize LIKWID topology")
cclog.ComponentError(m.name, err.Error())
return err
}
m.sock2tid = make(map[int]int) m.sock2tid = make(map[int]int)
tmp := make([]C.int, 1) tmp := make([]C.int, 1)
for _, sid := range topo.SocketList() { for _, sid := range topo.SocketList() {
@ -150,15 +213,13 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
} }
C.free(unsafe.Pointer(cstr)) C.free(unsafe.Pointer(cstr))
} }
m.results = make(map[int]map[int]map[string]interface{}) m.likwidGroups = make(map[C.int]LikwidEventsetConfig)
m.mresults = make(map[int]map[int]map[string]float64)
// m.results = make(map[int]map[int]map[string]interface{})
// 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)
cclog.ComponentDebug(m.name, "initialize LIKWID topology") for _, tid := range m.cpu2tid {
ret = C.topology_init() m.gmresults[tid] = make(map[string]float64)
if ret != 0 {
err := errors.New("failed to initialize LIKWID topology")
cclog.ComponentError(m.name, err.Error())
return err
} }
switch m.config.AccessMode { switch m.config.AccessMode {
@ -172,79 +233,50 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
C.HPMmode(1) C.HPMmode(1)
} }
cclog.ComponentDebug(m.name, "initialize LIKWID perfmon module")
ret = C.perfmon_init(C.int(len(m.cpulist)), &m.cpulist[0])
if ret != 0 {
C.topology_finalize()
err := errors.New("failed to initialize LIKWID topology")
cclog.ComponentError(m.name, err.Error())
return err
}
// This is for the global metrics computation test // This is for the global metrics computation test
globalParams := make(map[string]interface{}) totalMetrics := 0
globalParams["time"] = float64(1.0)
globalParams["inverseClock"] = float64(1.0)
// While adding the events, we test the metrics whether they can be computed at all
for i, evset := range m.config.Eventsets {
var gid C.int
var cstr *C.char
if len(evset.Events) > 0 {
estr := eventsToEventStr(evset.Events)
// Generate parameter list for the metric computing test // Generate parameter list for the metric computing test
params := make(map[string]interface{}) params := make([]string, 0)
params["time"] = float64(1.0) params = append(params, "time", "inverseClock")
params["inverseClock"] = float64(1.0) // Generate parameter list for the global metric computing test
globalParams := make([]string, 0)
globalParams = append(globalParams, "time", "inverseClock")
// We test the eventset metrics whether they can be computed at all
for _, evset := range m.config.Eventsets {
if len(evset.Events) > 0 {
params = params[:2]
for counter := range evset.Events { for counter := range evset.Events {
params[counter] = float64(1.0) params = append(params, counter)
} }
for _, metric := range evset.Metrics { for _, metric := range evset.Metrics {
// Try to evaluate the metric // Try to evaluate the metric
_, err := agg.EvalFloat64Condition(metric.Calc, params) if testLikwidMetricFormula(metric.Calc, params) {
if err != nil { // Add the computable metric to the parameter list for the global metrics
cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error()) globalParams = append(globalParams, metric.Name)
continue totalMetrics++
} } else {
// If the metric is not in the parameter list for the global metrics, add it metric.Calc = ""
if _, ok := globalParams[metric.Name]; !ok {
globalParams[metric.Name] = float64(1.0)
} }
} }
// Now we add the list of events to likwid
cstr = C.CString(estr)
gid = C.perfmon_addEventSet(cstr)
} else { } else {
cclog.ComponentError(m.name, "Invalid Likwid eventset config, no events given") cclog.ComponentError(m.name, "Invalid Likwid eventset config, no events given")
continue continue
} }
if gid >= 0 {
m.groups = append(m.groups, gid)
}
C.free(unsafe.Pointer(cstr))
m.results[i] = make(map[int]map[string]interface{})
m.mresults[i] = make(map[int]map[string]float64)
for tid := range m.cpulist {
m.results[i][tid] = make(map[string]interface{})
m.mresults[i][tid] = make(map[string]float64)
if i == 0 {
m.gmresults[tid] = make(map[string]float64)
}
}
} }
for _, metric := range m.config.Metrics { for _, metric := range m.config.Metrics {
// Try to evaluate the global metric // Try to evaluate the global metric
_, err := agg.EvalFloat64Condition(metric.Calc, globalParams) if !testLikwidMetricFormula(metric.Calc, globalParams) {
if err != nil { cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed")
cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error()) metric.Calc = ""
continue } else {
totalMetrics++
} }
} }
// If no event set could be added, shut down LikwidCollector // If no event set could be added, shut down LikwidCollector
if len(m.groups) == 0 { if totalMetrics == 0 {
C.perfmon_finalize()
C.topology_finalize() C.topology_finalize()
err := errors.New("no LIKWID performance group initialized") err := errors.New("no LIKWID eventset or metric usable")
cclog.ComponentError(m.name, err.Error()) cclog.ComponentError(m.name, err.Error())
return err return err
} }
@ -255,57 +287,71 @@ func (m *LikwidCollector) Init(config json.RawMessage) error {
} }
// take a measurement for 'interval' seconds of event set index 'group' // take a measurement for 'interval' seconds of event set index 'group'
func (m *LikwidCollector) takeMeasurement(group int, interval time.Duration) error { func (m *LikwidCollector) takeMeasurement(evset LikwidEventsetConfig, interval time.Duration) (bool, error) {
var ret C.int var ret C.int
gid := m.groups[group] m.lock.Lock()
ret = C.perfmon_setupCounters(gid) if m.initialized {
ret = C.perfmon_setupCounters(evset.gid)
if ret != 0 { if ret != 0 {
gctr := C.GoString(C.perfmon_getGroupName(gid)) var err error = nil
err := fmt.Errorf("failed to setup performance group %d (%s)", gid, gctr) var skip bool = false
return err if ret == -37 {
skip = true
} else {
err = fmt.Errorf("failed to setup performance group %d", evset.gid)
}
m.lock.Unlock()
return skip, err
} }
ret = C.perfmon_startCounters() ret = C.perfmon_startCounters()
if ret != 0 { if ret != 0 {
gctr := C.GoString(C.perfmon_getGroupName(gid)) var err error = nil
err := fmt.Errorf("failed to start performance group %d (%s)", gid, gctr) var skip bool = false
return err if ret == -37 {
skip = true
} else {
err = fmt.Errorf("failed to setup performance group %d", evset.gid)
}
m.lock.Unlock()
return skip, err
} }
m.running = true m.running = true
time.Sleep(interval) time.Sleep(interval)
m.running = false m.running = false
ret = C.perfmon_stopCounters() ret = C.perfmon_stopCounters()
if ret != 0 { if ret != 0 {
gctr := C.GoString(C.perfmon_getGroupName(gid)) var err error = nil
err := fmt.Errorf("failed to stop performance group %d (%s)", gid, gctr) var skip bool = false
return err if ret == -37 {
skip = true
} else {
err = fmt.Errorf("failed to setup performance group %d", evset.gid)
} }
return nil m.lock.Unlock()
return skip, err
}
}
m.lock.Unlock()
return false, nil
} }
// Get all measurement results for an event set, derive the metric values out of the measurement results and send it // Get all measurement results for an event set, derive the metric values out of the measurement results and send it
func (m *LikwidCollector) calcEventsetMetrics(group int, interval time.Duration, output chan lp.CCMetric) error { func (m *LikwidCollector) calcEventsetMetrics(evset LikwidEventsetConfig, interval time.Duration, output chan lp.CCMetric) error {
var eidx C.int
evset := m.config.Eventsets[group]
gid := m.groups[group]
invClock := float64(1.0 / m.basefreq) invClock := float64(1.0 / m.basefreq)
// Go over events and get the results // Go over events and get the results
for eidx = 0; int(eidx) < len(evset.Events); eidx++ { for eidx, counter := range evset.eorder {
ctr := C.perfmon_getCounterName(gid, eidx) gctr := C.GoString(counter)
gctr := C.GoString(ctr)
for _, tid := range m.cpu2tid { for _, tid := range m.cpu2tid {
if tid >= 0 { res := C.perfmon_getLastResult(evset.gid, C.int(eidx), C.int(tid))
m.results[group][tid]["time"] = interval.Seconds() evset.results[tid][gctr] = float64(res)
m.results[group][tid]["inverseClock"] = invClock evset.results[tid]["time"] = interval.Seconds()
res := C.perfmon_getLastResult(gid, eidx, C.int(tid)) evset.results[tid]["inverseClock"] = invClock
m.results[group][tid][gctr] = float64(res)
}
} }
} }
// Go over the event set metrics, derive the value out of the event:counter values and send it // Go over the event set metrics, derive the value out of the event:counter values and send it
for _, metric := range evset.Metrics { for _, metric := range m.config.Eventsets[evset.internal].Metrics {
// The metric scope is determined in the Init() function // The metric scope is determined in the Init() function
// Get the map scope-id -> tids // Get the map scope-id -> tids
scopemap := m.cpu2tid scopemap := m.cpu2tid
@ -313,13 +359,13 @@ func (m *LikwidCollector) calcEventsetMetrics(group int, interval time.Duration,
scopemap = m.sock2tid scopemap = m.sock2tid
} }
for domain, tid := range scopemap { for domain, tid := range scopemap {
if tid >= 0 { if tid >= 0 && len(metric.Calc) > 0 {
value, err := agg.EvalFloat64Condition(metric.Calc, m.results[group][tid]) value, err := agg.EvalFloat64Condition(metric.Calc, evset.results[tid])
if err != nil { if err != nil {
cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error()) cclog.ComponentError(m.name, "Calculation for metric", metric.Name, "failed:", err.Error())
continue continue
} }
m.mresults[group][tid][metric.Name] = value evset.metrics[tid][metric.Name] = value
if m.config.InvalidToZero && math.IsNaN(value) { if m.config.InvalidToZero && math.IsNaN(value) {
value = 0.0 value = 0.0
} }
@ -360,8 +406,8 @@ func (m *LikwidCollector) calcGlobalMetrics(interval time.Duration, output chan
if tid >= 0 { if tid >= 0 {
// Here we generate parameter list // Here we generate parameter list
params := make(map[string]interface{}) params := make(map[string]interface{})
for j := range m.groups { for _, evset := range m.likwidGroups {
for mname, mres := range m.mresults[j][tid] { for mname, mres := range evset.metrics[tid] {
params[mname] = mres params[mname] = mres
} }
} }
@ -401,38 +447,113 @@ func (m *LikwidCollector) calcGlobalMetrics(interval time.Duration, output chan
return nil return nil
} }
func (m *LikwidCollector) LateInit() error {
var ret C.int
cclog.ComponentDebug(m.name, "initialize LIKWID perfmon module")
ret = C.perfmon_init(C.int(len(m.cpulist)), &m.cpulist[0])
if ret != 0 {
var err error = nil
C.topology_finalize()
if ret != -22 {
err = errors.New("failed to initialize LIKWID perfmon")
cclog.ComponentError(m.name, err.Error())
} else {
err = errors.New("access to LIKWID perfmon locked")
}
return err
}
// While adding the events, we test the metrics whether they can be computed at all
for i, evset := range m.config.Eventsets {
var gid C.int
if len(evset.Events) > 0 {
likwidGroup := genLikwidEventSet(evset)
// Now we add the list of events to likwid
gid = C.perfmon_addEventSet(likwidGroup.estr)
if gid >= 0 {
likwidGroup.gid = gid
likwidGroup.internal = i
m.likwidGroups[gid] = likwidGroup
}
} else {
cclog.ComponentError(m.name, "Invalid Likwid eventset config, no events given")
continue
}
}
// If no event set could be added, shut down LikwidCollector
if len(m.likwidGroups) == 0 {
C.perfmon_finalize()
C.topology_finalize()
err := errors.New("no LIKWID performance group initialized")
cclog.ComponentError(m.name, err.Error())
return err
}
sigchan := make(chan os.Signal, 1)
signal.Notify(sigchan, syscall.SIGCHLD)
signal.Notify(sigchan, os.Interrupt)
go func() {
<-sigchan
signal.Stop(sigchan)
m.initialized = false
}()
m.initialized = true
return nil
}
// main read function taking multiple measurement rounds, each 'interval' seconds long // main read function taking multiple measurement rounds, each 'interval' seconds long
func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric) { func (m *LikwidCollector) Read(interval time.Duration, output chan lp.CCMetric) {
var skip bool = false
var err error
if !m.init { if !m.init {
return return
} }
for i := range m.groups { if !m.initialized {
if m.LateInit() != nil {
return
}
}
if m.initialized && !skip {
for _, evset := range m.likwidGroups {
if !skip {
// measure event set 'i' for 'interval' seconds // measure event set 'i' for 'interval' seconds
err := m.takeMeasurement(i, interval) skip, err = m.takeMeasurement(evset, interval)
if err != nil { if err != nil {
cclog.ComponentError(m.name, err.Error()) cclog.ComponentError(m.name, err.Error())
return return
} }
// read measurements and derive event set metrics
m.calcEventsetMetrics(i, interval, output)
} }
if !skip {
// read measurements and derive event set metrics
m.calcEventsetMetrics(evset, interval, output)
}
}
if !skip {
// use the event set metrics to derive the global metrics // use the event set metrics to derive the global metrics
m.calcGlobalMetrics(interval, output) m.calcGlobalMetrics(interval, output)
} }
}
}
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, "Closing ...")
cclog.ComponentDebug(m.name, "Stopping counters") m.lock.Lock()
C.perfmon_stopCounters() if m.initialized {
}
cclog.ComponentDebug(m.name, "Finalize LIKWID perfmon module") cclog.ComponentDebug(m.name, "Finalize LIKWID perfmon module")
C.perfmon_finalize() C.perfmon_finalize()
m.initialized = false
}
m.lock.Unlock()
cclog.ComponentDebug(m.name, "Finalize LIKWID topology module") cclog.ComponentDebug(m.name, "Finalize LIKWID topology module")
C.topology_finalize() C.topology_finalize()
cclog.ComponentDebug(m.name, "Closing done") cclog.ComponentDebug(m.name, "Closing done")
} }
} }