// Copyright (c) 2015-2022 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "strings" "sync" "sync/atomic" "time" "unsafe" "github.com/minio/madmin-go/v3" "github.com/minio/minio/internal/bucket/lifecycle" ) //go:generate stringer -type=scannerMetric -trimprefix=scannerMetric $GOFILE type scannerMetric uint8 type scannerMetrics struct { // All fields must be accessed atomically and aligned. operations [scannerMetricLast]uint64 latency [scannerMetricLastRealtime]lockedLastMinuteLatency // actions records actions performed. actions [lifecycle.ActionCount]uint64 actionsLatency [lifecycle.ActionCount]lockedLastMinuteLatency // currentPaths contains (string,*currentPathTracker) for each disk processing. // Alignment not required. currentPaths sync.Map cycleInfoMu sync.Mutex cycleInfo *currentScannerCycle } var globalScannerMetrics scannerMetrics const ( // START Realtime metrics, that only to records // last minute latencies and total operation count. scannerMetricReadMetadata scannerMetric = iota scannerMetricCheckMissing scannerMetricSaveUsage scannerMetricApplyAll scannerMetricApplyVersion scannerMetricTierObjSweep scannerMetricHealCheck scannerMetricILM scannerMetricCheckReplication scannerMetricYield scannerMetricCleanAbandoned scannerMetricApplyNonCurrent // START Trace metrics: scannerMetricStartTrace scannerMetricScanObject // Scan object. All operations included. // END realtime metrics: scannerMetricLastRealtime // Trace only metrics: scannerMetricScanFolder // Scan a folder on disk, recursively. scannerMetricScanCycle // Full cycle, cluster global scannerMetricScanBucketDrive // Single bucket on one drive scannerMetricCompactFolder // Folder compacted. // Must be last: scannerMetricLast ) // log scanner action. // Use for s > scannerMetricStartTrace func (p *scannerMetrics) log(s scannerMetric, paths ...string) func(custom map[string]string) { startTime := time.Now() return func(custom map[string]string) { duration := time.Since(startTime) atomic.AddUint64(&p.operations[s], 1) if s < scannerMetricLastRealtime { p.latency[s].add(duration) } if s > scannerMetricStartTrace && globalTrace.NumSubscribers(madmin.TraceScanner) > 0 { globalTrace.Publish(scannerTrace(s, startTime, duration, strings.Join(paths, " "), custom)) } } } // time a scanner action. // Use for s < scannerMetricLastRealtime func (p *scannerMetrics) time(s scannerMetric) func() { startTime := time.Now() return func() { duration := time.Since(startTime) atomic.AddUint64(&p.operations[s], 1) if s < scannerMetricLastRealtime { p.latency[s].add(duration) } } } // timeSize add time and size of a scanner action. // Use for s < scannerMetricLastRealtime func (p *scannerMetrics) timeSize(s scannerMetric) func(sz int) { startTime := time.Now() return func(sz int) { duration := time.Since(startTime) atomic.AddUint64(&p.operations[s], 1) if s < scannerMetricLastRealtime { p.latency[s].addSize(duration, int64(sz)) } } } // incTime will increment time on metric s with a specific duration. // Use for s < scannerMetricLastRealtime func (p *scannerMetrics) incTime(s scannerMetric, d time.Duration) { atomic.AddUint64(&p.operations[s], 1) if s < scannerMetricLastRealtime { p.latency[s].add(d) } } // timeILM times an ILM action. // lifecycle.NoneAction is ignored. // Use for s < scannerMetricLastRealtime func (p *scannerMetrics) timeILM(a lifecycle.Action) func() { if a == lifecycle.NoneAction || a >= lifecycle.ActionCount { return func() {} } startTime := time.Now() return func() { duration := time.Since(startTime) atomic.AddUint64(&p.actions[a], 1) p.actionsLatency[a].add(duration) } } type currentPathTracker struct { name *unsafe.Pointer // contains atomically accessed *string } // currentPathUpdater provides a lightweight update function for keeping track of // current objects for each disk. // Returns a function that can be used to update the current object // and a function to call to when processing finished. func (p *scannerMetrics) currentPathUpdater(disk, initial string) (update func(path string), done func()) { initialPtr := unsafe.Pointer(&initial) tracker := ¤tPathTracker{ name: &initialPtr, } p.currentPaths.Store(disk, tracker) return func(path string) { atomic.StorePointer(tracker.name, unsafe.Pointer(&path)) }, func() { p.currentPaths.Delete(disk) } } // getCurrentPaths returns the paths currently being processed. func (p *scannerMetrics) getCurrentPaths() []string { var res []string prefix := globalLocalNodeName + "/" p.currentPaths.Range(func(key, value interface{}) bool { // We are a bit paranoid, but better miss an entry than crash. name, ok := key.(string) if !ok { return true } obj, ok := value.(*currentPathTracker) if !ok { return true } strptr := (*string)(atomic.LoadPointer(obj.name)) if strptr != nil { res = append(res, pathJoin(prefix, name, *strptr)) } return true }) return res } // activeDrives returns the number of currently active disks. // (since this is concurrent it may not be 100% reliable) func (p *scannerMetrics) activeDrives() int { var i int p.currentPaths.Range(func(k, v interface{}) bool { i++ return true }) return i } // lifetime returns the lifetime count of the specified metric. func (p *scannerMetrics) lifetime(m scannerMetric) uint64 { if m >= scannerMetricLast { return 0 } val := atomic.LoadUint64(&p.operations[m]) return val } // lastMinute returns the last minute statistics of a metric. // m should be < scannerMetricLastRealtime func (p *scannerMetrics) lastMinute(m scannerMetric) AccElem { if m >= scannerMetricLastRealtime { return AccElem{} } val := p.latency[m].total() return val } // lifetimeActions returns the lifetime count of the specified ilm metric. func (p *scannerMetrics) lifetimeActions(a lifecycle.Action) uint64 { if a == lifecycle.NoneAction || a >= lifecycle.ActionCount { return 0 } val := atomic.LoadUint64(&p.actions[a]) return val } // lastMinuteActions returns the last minute statistics of an ilm metric. func (p *scannerMetrics) lastMinuteActions(a lifecycle.Action) AccElem { if a == lifecycle.NoneAction || a >= lifecycle.ActionCount { return AccElem{} } val := p.actionsLatency[a].total() return val } // setCycle updates the current cycle metrics. func (p *scannerMetrics) setCycle(c *currentScannerCycle) { if c != nil { c2 := c.clone() c = &c2 } p.cycleInfoMu.Lock() p.cycleInfo = c p.cycleInfoMu.Unlock() } // getCycle returns the current cycle metrics. // If not nil, the returned value can safely be modified. func (p *scannerMetrics) getCycle() *currentScannerCycle { p.cycleInfoMu.Lock() defer p.cycleInfoMu.Unlock() if p.cycleInfo == nil { return nil } c := p.cycleInfo.clone() return &c } func (p *scannerMetrics) report() madmin.ScannerMetrics { var m madmin.ScannerMetrics cycle := p.getCycle() if cycle != nil { m.CurrentCycle = cycle.current m.CyclesCompletedAt = cycle.cycleCompleted m.CurrentStarted = cycle.started } m.CollectedAt = time.Now() m.ActivePaths = p.getCurrentPaths() m.LifeTimeOps = make(map[string]uint64, scannerMetricLast) for i := scannerMetric(0); i < scannerMetricLast; i++ { if n := atomic.LoadUint64(&p.operations[i]); n > 0 { m.LifeTimeOps[i.String()] = n } } if len(m.LifeTimeOps) == 0 { m.LifeTimeOps = nil } m.LastMinute.Actions = make(map[string]madmin.TimedAction, scannerMetricLastRealtime) for i := scannerMetric(0); i < scannerMetricLastRealtime; i++ { lm := p.lastMinute(i) if lm.N > 0 { m.LastMinute.Actions[i.String()] = lm.asTimedAction() } } if len(m.LastMinute.Actions) == 0 { m.LastMinute.Actions = nil } // ILM m.LifeTimeILM = make(map[string]uint64) for i := lifecycle.NoneAction + 1; i < lifecycle.ActionCount; i++ { if n := atomic.LoadUint64(&p.actions[i]); n > 0 { m.LifeTimeILM[i.String()] = n } } if len(m.LifeTimeILM) == 0 { m.LifeTimeILM = nil } if len(m.LifeTimeILM) > 0 { m.LastMinute.ILM = make(map[string]madmin.TimedAction, len(m.LifeTimeILM)) for i := lifecycle.NoneAction + 1; i < lifecycle.ActionCount; i++ { lm := p.lastMinuteActions(i) if lm.N > 0 { m.LastMinute.ILM[i.String()] = madmin.TimedAction{Count: uint64(lm.N), AccTime: uint64(lm.Total)} } } if len(m.LastMinute.ILM) == 0 { m.LastMinute.ILM = nil } } return m }