/* * MinIO Cloud Storage, (C) 2018-2020 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package cmd import ( "context" "fmt" "net/http" "runtime" "strings" "sync" "time" "github.com/minio/minio/cmd/logger" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/client_golang/prometheus/promhttp" dto "github.com/prometheus/client_model/go" "github.com/prometheus/procfs" ) // MetricNamespace is top level grouping of metrics to create the metric name. type MetricNamespace string // MetricSubsystem is the sub grouping for metrics within a namespace. type MetricSubsystem string const ( bucketMetricNamespace MetricNamespace = "minio_bucket" clusterMetricNamespace MetricNamespace = "minio_cluster" healMetricNamespace MetricNamespace = "minio_heal" interNodeMetricNamespace MetricNamespace = "minio_inter_node" nodeMetricNamespace MetricNamespace = "minio_node" minIOMetricNamespace MetricNamespace = "minio" s3MetricNamespace MetricNamespace = "minio_s3" ) const ( cacheSubsystem MetricSubsystem = "cache" capacityRawSubsystem MetricSubsystem = "capacity_raw" capacityUsableSubsystem MetricSubsystem = "capacity_usable" diskSubsystem MetricSubsystem = "disk" fileDescriptorSubsystem MetricSubsystem = "file_descriptor" goRoutines MetricSubsystem = "go_routine" ioSubsystem MetricSubsystem = "io" nodesSubsystem MetricSubsystem = "nodes" objectsSubsystem MetricSubsystem = "objects" processSubsystem MetricSubsystem = "process" replicationSubsystem MetricSubsystem = "replication" requestsSubsystem MetricSubsystem = "requests" timeSubsystem MetricSubsystem = "time" trafficSubsystem MetricSubsystem = "traffic" softwareSubsystem MetricSubsystem = "software" sysCallSubsystem MetricSubsystem = "syscall" usageSubsystem MetricSubsystem = "usage" ) // MetricName are the individual names for the metric. type MetricName string const ( errorsTotal MetricName = "error_total" healTotal MetricName = "heal_total" hitsTotal MetricName = "hits_total" inflightTotal MetricName = "inflight_total" limitTotal MetricName = "limit_total" missedTotal MetricName = "missed_total" waitingTotal MetricName = "waiting_total" objectTotal MetricName = "object_total" offlineTotal MetricName = "offline_total" onlineTotal MetricName = "online_total" openTotal MetricName = "open_total" readTotal MetricName = "read_total" writeTotal MetricName = "write_total" total MetricName = "total" failedBytes MetricName = "failed_bytes" freeBytes MetricName = "free_bytes" pendingBytes MetricName = "pending_bytes" readBytes MetricName = "read_bytes" rcharBytes MetricName = "rchar_bytes" receivedBytes MetricName = "received_bytes" sentBytes MetricName = "sent_bytes" totalBytes MetricName = "total_bytes" usedBytes MetricName = "used_bytes" writeBytes MetricName = "write_bytes" wcharBytes MetricName = "wchar_bytes" usagePercent MetricName = "update_percent" commitInfo MetricName = "commit_info" usageInfo MetricName = "usage_info" versionInfo MetricName = "version_info" sizeDistribution = "size_distribution" ttfbDistribution = "ttbf_seconds_distribution" lastActivityTime = "last_activity_nano_seconds" startTime = "starttime_seconds" ) const ( serverName = "server" ) // GaugeMetricType for the types of metrics supported type GaugeMetricType string const ( gaugeMetric = "gaugeMetric" counterMetric = "counterMetric" histogramMetric = "histogramMetric" ) // MetricDescription describes the metric type MetricDescription struct { Namespace MetricNamespace `json:"MetricNamespace"` Subsystem MetricSubsystem `json:"Subsystem"` Name MetricName `json:"MetricName"` Help string `json:"Help"` Type GaugeMetricType `json:"Type"` } // Metric captures the details for a metric type Metric struct { Description MetricDescription `json:"Description"` StaticLabels map[string]string `json:"StaticLabels"` Value float64 `json:"Value"` VariableLabels map[string]string `json:"VariableLabels"` HistogramBucketLabel string `json:"HistogramBucketLabel"` Histogram map[string]uint64 `json:"Histogram"` } // MetricsGroup are a group of metrics that are initialized together. type MetricsGroup struct { Metrics []Metric initialize func(ctx context.Context, m *MetricsGroup) } // MetricsGenerator are functions that generate metric groups. type MetricsGenerator func() MetricsGroup // GetGlobalGenerators gets all the generators the report global metrics pre calculated. func GetGlobalGenerators() []MetricsGenerator { g := []MetricsGenerator{ getBucketUsageMetrics, getMinioHealingMetrics, getNodeHealthMetrics, getClusterStorageMetrics, } return g } // GetAllGenerators gets all the metric generators. func GetAllGenerators() []MetricsGenerator { g := GetGlobalGenerators() g = append(g, GetGeneratorsForPeer()...) return g } // GetGeneratorsForPeer - gets the generators to report to peer. func GetGeneratorsForPeer() []MetricsGenerator { g := []MetricsGenerator{ getCacheMetrics, getGoMetrics, getHTTPMetrics, getLocalStorageMetrics, getMinioProcMetrics, getMinioVersionMetrics, getNetworkMetrics, getS3TTFBMetric, } return g } // GetSingleNodeGenerators gets the metrics that are local func GetSingleNodeGenerators() []MetricsGenerator { g := []MetricsGenerator{ getNodeHealthMetrics, getCacheMetrics, getHTTPMetrics, getNetworkMetrics, getMinioVersionMetrics, getS3TTFBMetric, } return g } func getClusterCapacityTotalBytesMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: capacityRawSubsystem, Name: totalBytes, Help: "Total capacity online in the cluster.", Type: gaugeMetric, } } func getClusterCapacityFreeBytesMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: capacityRawSubsystem, Name: freeBytes, Help: "Total free capacity online in the cluster.", Type: gaugeMetric, } } func getClusterCapacityUsageBytesMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: capacityUsableSubsystem, Name: totalBytes, Help: "Total usable capacity online in the cluster.", Type: gaugeMetric, } } func getClusterCapacityUsageFreeBytesMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: capacityUsableSubsystem, Name: freeBytes, Help: "Total free usable capacity online in the cluster.", Type: gaugeMetric, } } func getNodeDiskUsedBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: diskSubsystem, Name: usedBytes, Help: "Total storage used on a disk.", Type: gaugeMetric, } } func getNodeDiskFreeBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: diskSubsystem, Name: freeBytes, Help: "Total storage available on a disk.", Type: gaugeMetric, } } func getClusterDiskOfflineTotalMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: diskSubsystem, Name: offlineTotal, Help: "Total disks offline.", Type: gaugeMetric, } } func getClusterDiskOnlineTotalMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: diskSubsystem, Name: onlineTotal, Help: "Total disks online.", Type: gaugeMetric, } } func getNodeDiskTotalBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: diskSubsystem, Name: totalBytes, Help: "Total storage on a disk.", Type: gaugeMetric, } } func getBucketUsageTotalBytesMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: usageSubsystem, Name: totalBytes, Help: "Total bucket size in bytes", Type: gaugeMetric, } } func getBucketUsageObjectsTotalMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: usageSubsystem, Name: objectTotal, Help: "Total number of objects", Type: gaugeMetric, } } func getBucketRepPendingBytesMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: replicationSubsystem, Name: pendingBytes, Help: "Total bytes pending to replicate.", Type: gaugeMetric, } } func getBucketRepFailedBytesMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: replicationSubsystem, Name: failedBytes, Help: "Total number of bytes failed at least once to replicate.", Type: gaugeMetric, } } func getBucketRepSentBytesMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: replicationSubsystem, Name: sentBytes, Help: "Total number of bytes replicated to the target bucket.", Type: gaugeMetric, } } func getBucketRepReceivedBytesMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: replicationSubsystem, Name: receivedBytes, Help: "Total number of bytes replicated to this bucket from another source bucket.", Type: gaugeMetric, } } func getBucketObjectDistributionMD() MetricDescription { return MetricDescription{ Namespace: bucketMetricNamespace, Subsystem: objectsSubsystem, Name: sizeDistribution, Help: "Distribution of object sizes in the bucket, includes label for the bucket name.", Type: histogramMetric, } } func getInterNodeSentBytesMD() MetricDescription { return MetricDescription{ Namespace: interNodeMetricNamespace, Subsystem: trafficSubsystem, Name: sentBytes, Help: "Total number of bytes sent to the other peer nodes.", Type: counterMetric, } } func getInterNodeReceivedBytesMD() MetricDescription { return MetricDescription{ Namespace: interNodeMetricNamespace, Subsystem: trafficSubsystem, Name: receivedBytes, Help: "Total number of bytes received from other peer nodes.", Type: counterMetric, } } func getS3SentBytesMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: trafficSubsystem, Name: sentBytes, Help: "Total number of s3 bytes sent", Type: counterMetric, } } func getS3ReceivedBytesMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: trafficSubsystem, Name: receivedBytes, Help: "Total number of s3 bytes received.", Type: counterMetric, } } func getS3RequestsInFlightMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: requestsSubsystem, Name: inflightTotal, Help: "Total number of S3 requests currently in flight", Type: gaugeMetric, } } func getS3RequestsInQueueMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: requestsSubsystem, Name: waitingTotal, Help: "Number of S3 requests in the waiting queue", Type: counterMetric, } } func getS3RequestsTotalMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: requestsSubsystem, Name: total, Help: "Total number S3 requests", Type: counterMetric, } } func getS3RequestsErrorsMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: requestsSubsystem, Name: errorsTotal, Help: "Total number S3 requests with errors", Type: counterMetric, } } func getCacheHitsTotalMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: hitsTotal, Help: "Total number of disk cache hits", Type: counterMetric, } } func getCacheHitsMissedTotalMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: missedTotal, Help: "Total number of disk cache misses", Type: counterMetric, } } func getCacheUsagePercentMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: minioNamespace, Name: usagePercent, Help: "Total percentage cache usage", Type: gaugeMetric, } } func getCacheUsageInfoMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: usageInfo, Help: "Total percentage cache usage, value of 1 indicates high and 0 low, label level is set as well", Type: gaugeMetric, } } func getCacheUsedBytesMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: usedBytes, Help: "Current cache usage in bytes", Type: gaugeMetric, } } func getCacheTotalBytesMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: totalBytes, Help: "Total size of cache disk in bytes", Type: gaugeMetric, } } func getCacheSentBytesMD() MetricDescription { return MetricDescription{ Namespace: minioNamespace, Subsystem: cacheSubsystem, Name: sentBytes, Help: "Total number of bytes served from cache", Type: counterMetric, } } func getHealObjectsTotalMD() MetricDescription { return MetricDescription{ Namespace: healMetricNamespace, Subsystem: objectsSubsystem, Name: total, Help: "Objects scanned in current self healing run", Type: gaugeMetric, } } func getHealObjectsHealTotalMD() MetricDescription { return MetricDescription{ Namespace: healMetricNamespace, Subsystem: objectsSubsystem, Name: healTotal, Help: "Objects healed in current self healing run", Type: gaugeMetric, } } func getHealObjectsFailTotalMD() MetricDescription { return MetricDescription{ Namespace: healMetricNamespace, Subsystem: objectsSubsystem, Name: errorsTotal, Help: "Objects for which healing failed in current self healing run", Type: gaugeMetric, } } func getHealLastActivityTimeMD() MetricDescription { return MetricDescription{ Namespace: healMetricNamespace, Subsystem: timeSubsystem, Name: lastActivityTime, Help: "Time elapsed (in nano seconds) since last self healing activity. This is set to -1 until initial self heal activity", Type: gaugeMetric, } } func getNodeOnlineTotalMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: nodesSubsystem, Name: onlineTotal, Help: "Total number of MinIO nodes online.", Type: gaugeMetric, } } func getNodeOfflineTotalMD() MetricDescription { return MetricDescription{ Namespace: clusterMetricNamespace, Subsystem: nodesSubsystem, Name: offlineTotal, Help: "Total number of MinIO nodes offline.", Type: gaugeMetric, } } func getMinIOVersionMD() MetricDescription { return MetricDescription{ Namespace: minIOMetricNamespace, Subsystem: softwareSubsystem, Name: versionInfo, Help: "MinIO Release tag for the server", Type: gaugeMetric, } } func getMinIOCommitMD() MetricDescription { return MetricDescription{ Namespace: minIOMetricNamespace, Subsystem: softwareSubsystem, Name: commitInfo, Help: "Git commit hash for the MinIO release.", Type: gaugeMetric, } } func getS3TTFBDistributionMD() MetricDescription { return MetricDescription{ Namespace: s3MetricNamespace, Subsystem: timeSubsystem, Name: ttfbDistribution, Help: "Distribution of the time to first byte across API calls.", Type: gaugeMetric, } } func getMinioFDOpenMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: fileDescriptorSubsystem, Name: openTotal, Help: "Total number of open file descriptors by the MinIO Server process.", Type: gaugeMetric, } } func getMinioFDLimitMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: fileDescriptorSubsystem, Name: limitTotal, Help: "Limit on total number of open file descriptors for the MinIO Server process.", Type: gaugeMetric, } } func getMinioProcessIOWriteBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: ioSubsystem, Name: writeBytes, Help: "Total bytes written by the process to the underlying storage system, /proc/[pid]/io write_bytes", Type: counterMetric, } } func getMinioProcessIOReadBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: ioSubsystem, Name: readBytes, Help: "Total bytes read by the process from the underlying storage system, /proc/[pid]/io read_bytes", Type: counterMetric, } } func getMinioProcessIOWriteCachedBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: ioSubsystem, Name: wcharBytes, Help: "Total bytes written by the process to the underlying storage system including page cache, /proc/[pid]/io wchar", Type: counterMetric, } } func getMinioProcessIOReadCachedBytesMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: ioSubsystem, Name: rcharBytes, Help: "Total bytes read by the process from the underlying storage system including cache, /proc/[pid]/io rchar", Type: counterMetric, } } func getMinIOProcessSysCallRMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: sysCallSubsystem, Name: readTotal, Help: "Total read SysCalls to the kernel. /proc/[pid]/io syscr", Type: counterMetric, } } func getMinIOProcessSysCallWMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: sysCallSubsystem, Name: writeTotal, Help: "Total write SysCalls to the kernel. /proc/[pid]/io syscw", Type: counterMetric, } } func getMinIOGORoutineCountMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: goRoutines, Name: total, Help: "Total number of go routines running.", Type: gaugeMetric, } } func getMinIOProcessStartTimeMD() MetricDescription { return MetricDescription{ Namespace: nodeMetricNamespace, Subsystem: processSubsystem, Name: startTime, Help: "Start time for MinIO process per node in seconds.", Type: gaugeMetric, } } func getMinioProcMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { p, err := procfs.Self() if err != nil { logger.LogOnceIf(ctx, err, nodeMetricNamespace) return } var openFDs int openFDs, err = p.FileDescriptorsLen() if err != nil { logger.LogOnceIf(ctx, err, getMinioFDOpenMD()) return } l, err := p.Limits() if err != nil { logger.LogOnceIf(ctx, err, getMinioFDLimitMD()) return } io, err := p.IO() if err != nil { logger.LogOnceIf(ctx, err, ioSubsystem) return } stat, err := p.Stat() if err != nil { logger.LogOnceIf(ctx, err, processSubsystem) return } startTime, err := stat.StartTime() if err != nil { logger.LogOnceIf(ctx, err, startTime) return } metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioFDOpenMD(), Value: float64(openFDs), }, ) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioFDLimitMD(), Value: float64(l.OpenFiles), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinIOProcessSysCallRMD(), Value: float64(io.SyscR), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinIOProcessSysCallWMD(), Value: float64(io.SyscW), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioProcessIOReadBytesMD(), Value: float64(io.ReadBytes), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioProcessIOWriteBytesMD(), Value: float64(io.WriteBytes), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioProcessIOReadCachedBytesMD(), Value: float64(io.RChar), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinioProcessIOWriteCachedBytesMD(), Value: float64(io.WChar), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinIOProcessStartTimeMD(), Value: startTime, }) }, } } func getGoMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getMinIOGORoutineCountMD(), Value: float64(runtime.NumGoroutine()), }) }, } } func getS3TTFBMetric() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { // Read prometheus metric on this channel ch := make(chan prometheus.Metric) var wg sync.WaitGroup wg.Add(1) // Read prometheus histogram data and convert it to internal metric data go func() { defer wg.Done() for promMetric := range ch { dtoMetric := &dto.Metric{} err := promMetric.Write(dtoMetric) if err != nil { logger.LogIf(GlobalContext, err) return } h := dtoMetric.GetHistogram() for _, b := range h.Bucket { labels := make(map[string]string) for _, lp := range dtoMetric.GetLabel() { labels[*lp.Name] = *lp.Value } labels["le"] = fmt.Sprintf("%.3f", *b.UpperBound) metric := Metric{ Description: getS3TTFBDistributionMD(), VariableLabels: labels, Value: float64(b.GetCumulativeCount()), } metrics.Metrics = append(metrics.Metrics, metric) } } }() httpRequestsDuration.Collect(ch) close(ch) wg.Wait() }, } } func getMinioVersionMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(_ context.Context, m *MetricsGroup) { m.Metrics = append(m.Metrics, Metric{ Description: getMinIOCommitMD(), VariableLabels: map[string]string{"commit": CommitID}, }) m.Metrics = append(m.Metrics, Metric{ Description: getMinIOVersionMD(), VariableLabels: map[string]string{"version": Version}, }) }, } } func getNodeHealthMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{ { Description: getNodeOnlineTotalMD(), }, { Description: getNodeOfflineTotalMD(), }, }, initialize: func(_ context.Context, m *MetricsGroup) { nodesUp, nodesDown := GetPeerOnlineCount() for i := range m.Metrics { switch { case m.Metrics[i].Description.Name == onlineTotal: m.Metrics[i].Value = float64(nodesUp) case m.Metrics[i].Description.Name == offlineTotal: m.Metrics[i].Value = float64(nodesDown) } } }, } } func getMinioHealingMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(_ context.Context, m *MetricsGroup) { if !globalIsErasure { return } bgSeq, exists := globalBackgroundHealState.getHealSequenceByToken(bgHealingUUID) if !exists { return } var dur time.Duration if !bgSeq.lastHealActivity.IsZero() { dur = time.Since(bgSeq.lastHealActivity) } m.Metrics = append(m.Metrics, Metric{ Description: getHealLastActivityTimeMD(), Value: float64(dur), }) m.Metrics = append(m.Metrics, getObjectsScanned(bgSeq)...) m.Metrics = append(m.Metrics, getScannedItems(bgSeq)...) m.Metrics = append(m.Metrics, getFailedItems(bgSeq)...) }, } } func getFailedItems(seq *healSequence) (m []Metric) { m = make([]Metric, 0) for k, v := range seq.gethealFailedItemsMap() { s := strings.Split(k, ",") m = append(m, Metric{ Description: getHealObjectsFailTotalMD(), VariableLabels: map[string]string{ "mount_path": s[0], "volume_status": s[1], }, Value: float64(v), }) } return } func getScannedItems(seq *healSequence) (m []Metric) { m = make([]Metric, 0) for k, v := range seq.getHealedItemsMap() { m = append(m, Metric{ Description: getHealObjectsHealTotalMD(), VariableLabels: map[string]string{"type": string(k)}, Value: float64(v), }) } return } func getObjectsScanned(seq *healSequence) (m []Metric) { m = make([]Metric, 0) for k, v := range seq.getScannedItemsMap() { m = append(m, Metric{ Description: getHealObjectsTotalMD(), VariableLabels: map[string]string{"type": string(k)}, Value: float64(v), }) } return } func getCacheMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, m *MetricsGroup) { cacheObjLayer := newCachedObjectLayerFn() // Service not initialized yet if cacheObjLayer == nil { return } m.Metrics = append(m.Metrics, Metric{ Description: getCacheHitsTotalMD(), Value: float64(cacheObjLayer.CacheStats().getHits()), }) m.Metrics = append(m.Metrics, Metric{ Description: getCacheHitsMissedTotalMD(), Value: float64(cacheObjLayer.CacheStats().getMisses()), }) m.Metrics = append(m.Metrics, Metric{ Description: getCacheSentBytesMD(), Value: float64(cacheObjLayer.CacheStats().getBytesServed()), }) for _, cdStats := range cacheObjLayer.CacheStats().GetDiskStats() { m.Metrics = append(m.Metrics, Metric{ Description: getCacheUsagePercentMD(), Value: float64(cdStats.UsagePercent), VariableLabels: map[string]string{"disk": cdStats.Dir}, }) m.Metrics = append(m.Metrics, Metric{ Description: getCacheUsageInfoMD(), Value: float64(cdStats.UsageState), VariableLabels: map[string]string{"disk": cdStats.Dir, "level": cdStats.GetUsageLevelString()}, }) m.Metrics = append(m.Metrics, Metric{ Description: getCacheUsedBytesMD(), Value: float64(cdStats.UsageSize), VariableLabels: map[string]string{"disk": cdStats.Dir}, }) m.Metrics = append(m.Metrics, Metric{ Description: getCacheTotalBytesMD(), Value: float64(cdStats.TotalCapacity), VariableLabels: map[string]string{"disk": cdStats.Dir}, }) } }, } } func getHTTPMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { httpStats := globalHTTPStats.toServerHTTPStats() metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3RequestsInQueueMD(), Value: float64(httpStats.S3RequestsInQueue), }) for api, value := range httpStats.CurrentS3Requests.APIStats { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3RequestsInFlightMD(), Value: float64(value), VariableLabels: map[string]string{"api": api}, }) } for api, value := range httpStats.TotalS3Requests.APIStats { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3RequestsTotalMD(), Value: float64(value), VariableLabels: map[string]string{"api": api}, }) } for api, value := range httpStats.TotalS3Errors.APIStats { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3RequestsErrorsMD(), Value: float64(value), VariableLabels: map[string]string{"api": api}, }) } }, } } func getNetworkMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { connStats := globalConnStats.toServerConnStats() metrics.Metrics = append(metrics.Metrics, Metric{ Description: getInterNodeSentBytesMD(), Value: float64(connStats.TotalOutputBytes), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getInterNodeReceivedBytesMD(), Value: float64(connStats.TotalInputBytes), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3SentBytesMD(), Value: float64(connStats.S3OutputBytes), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getS3ReceivedBytesMD(), Value: float64(connStats.S3InputBytes), }) }, } } func getBucketUsageMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { objLayer := newObjectLayerFn() // Service not initialized yet if objLayer == nil || globalIsGateway { return } if globalIsGateway { return } dataUsageInfo, err := loadDataUsageFromBackend(GlobalContext, objLayer) if err != nil { return } // data usage has not captured any data yet. if dataUsageInfo.LastUpdate.IsZero() { return } for bucket, usage := range dataUsageInfo.BucketsUsage { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketUsageTotalBytesMD(), Value: float64(usage.Size), VariableLabels: map[string]string{"bucket": bucket}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketUsageObjectsTotalMD(), Value: float64(usage.ObjectsCount), VariableLabels: map[string]string{"bucket": bucket}, }) if usage.hasReplicationUsage() { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketRepPendingBytesMD(), Value: float64(usage.ReplicationPendingSize), VariableLabels: map[string]string{"bucket": bucket}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketRepFailedBytesMD(), Value: float64(usage.ReplicationFailedSize), VariableLabels: map[string]string{"bucket": bucket}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketRepSentBytesMD(), Value: float64(usage.ReplicatedSize), VariableLabels: map[string]string{"bucket": bucket}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketRepReceivedBytesMD(), Value: float64(usage.ReplicaSize), VariableLabels: map[string]string{"bucket": bucket}, }) } metrics.Metrics = append(metrics.Metrics, Metric{ Description: getBucketObjectDistributionMD(), Histogram: usage.ObjectSizesHistogram, HistogramBucketLabel: "range", VariableLabels: map[string]string{"bucket": bucket}, }) } }, } } func getLocalStorageMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { disks := getLocalDisks(globalEndpoints) for _, disk := range disks { metrics.Metrics = append(metrics.Metrics, Metric{ Description: getNodeDiskUsedBytesMD(), Value: float64(disk.UsedSpace), VariableLabels: map[string]string{"disk": disk.DrivePath}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getNodeDiskFreeBytesMD(), Value: float64(disk.AvailableSpace), VariableLabels: map[string]string{"disk": disk.DrivePath}, }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getNodeDiskTotalBytesMD(), Value: float64(disk.TotalSpace), VariableLabels: map[string]string{"disk": disk.DrivePath}, }) } }, } } func getClusterStorageMetrics() MetricsGroup { return MetricsGroup{ Metrics: []Metric{}, initialize: func(ctx context.Context, metrics *MetricsGroup) { objLayer := newObjectLayerFn() // Service not initialized yet if objLayer == nil { return } // Fetch disk space info, ignore errors storageInfo, _ := objLayer.StorageInfo(GlobalContext) onlineDisks, offlineDisks := getOnlineOfflineDisksStats(storageInfo.Disks) totalDisks := offlineDisks.Merge(onlineDisks) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterCapacityTotalBytesMD(), Value: float64(GetTotalCapacity(storageInfo.Disks)), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterCapacityFreeBytesMD(), Value: float64(GetTotalCapacityFree(storageInfo.Disks)), }) s, _ := objLayer.StorageInfo(GlobalContext) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterCapacityUsageBytesMD(), Value: GetTotalUsableCapacity(storageInfo.Disks, s), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterCapacityUsageFreeBytesMD(), Value: GetTotalUsableCapacityFree(storageInfo.Disks, s), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterDiskOfflineTotalMD(), Value: float64(offlineDisks.Sum()), }) metrics.Metrics = append(metrics.Metrics, Metric{ Description: getClusterDiskOnlineTotalMD(), Value: float64(totalDisks.Sum()), }) }, } } func (b *BucketUsageInfo) hasReplicationUsage() bool { return b.ReplicationPendingSize > 0 || b.ReplicationFailedSize > 0 || b.ReplicatedSize > 0 || b.ReplicaSize > 0 } type minioClusterCollector struct { desc *prometheus.Desc } func newMinioClusterCollector() *minioClusterCollector { return &minioClusterCollector{ desc: prometheus.NewDesc("minio_stats", "Statistics exposed by MinIO server", nil, nil), } } // Describe sends the super-set of all possible descriptors of metrics func (c *minioClusterCollector) Describe(ch chan<- *prometheus.Desc) { ch <- c.desc } // Collect is called by the Prometheus registry when collecting metrics. func (c *minioClusterCollector) Collect(out chan<- prometheus.Metric) { var wg sync.WaitGroup publish := func(in <-chan Metric) { defer wg.Done() for metric := range in { labels, values := getOrderedLabelValueArrays(metric.VariableLabels) if metric.Description.Type == histogramMetric { if metric.Histogram == nil { continue } for k, v := range metric.Histogram { l := append(labels, metric.HistogramBucketLabel) lv := append(values, k) out <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(string(metric.Description.Namespace), string(metric.Description.Subsystem), string(metric.Description.Name)), metric.Description.Help, l, metric.StaticLabels, ), prometheus.GaugeValue, float64(v), lv...) } continue } metricType := prometheus.GaugeValue switch metric.Description.Type { case counterMetric: metricType = prometheus.CounterValue } toPost := prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(string(metric.Description.Namespace), string(metric.Description.Subsystem), string(metric.Description.Name)), metric.Description.Help, labels, metric.StaticLabels, ), metricType, metric.Value, values...) out <- toPost } } // Call peer api to fetch metrics peerCh := globalNotificationSys.GetClusterMetrics(GlobalContext) selfCh := ReportMetrics(GlobalContext, GetAllGenerators) wg.Add(2) go publish(peerCh) go publish(selfCh) wg.Wait() } // ReportMetrics reports serialized metrics to the channel passed for the metrics generated. func ReportMetrics(ctx context.Context, generators func() []MetricsGenerator) <-chan Metric { ch := make(chan Metric) go func() { defer close(ch) populateAndPublish(generators, func(m Metric) bool { if m.VariableLabels == nil { m.VariableLabels = make(map[string]string) } m.VariableLabels[serverName] = GetLocalPeer(globalEndpoints) for { select { case ch <- m: return true case <-ctx.Done(): return false } } }) }() return ch } // minioCollectorV2 is the Custom Collector type minioCollectorV2 struct { generator func() []MetricsGenerator desc *prometheus.Desc } // Describe sends the super-set of all possible descriptors of metrics func (c *minioCollectorV2) Describe(ch chan<- *prometheus.Desc) { ch <- c.desc } // populateAndPublish populates and then publishes the metrics generated by the generator function. func populateAndPublish(generatorFn func() []MetricsGenerator, publish func(m Metric) bool) { generators := generatorFn() for _, g := range generators { metrics := g() metrics.initialize(GlobalContext, &metrics) for _, metric := range metrics.Metrics { if !publish(metric) { return } } } } // Collect is called by the Prometheus registry when collecting metrics. func (c *minioCollectorV2) Collect(ch chan<- prometheus.Metric) { // Expose MinIO's version information minioVersionInfo.WithLabelValues(Version, CommitID).Set(1.0) populateAndPublish(c.generator, func(metric Metric) bool { labels, values := getOrderedLabelValueArrays(metric.VariableLabels) values = append(values, GetLocalPeer(globalEndpoints)) labels = append(labels, serverName) if metric.Description.Type == histogramMetric { if metric.Histogram == nil { return true } for k, v := range metric.Histogram { labels = append(labels, metric.HistogramBucketLabel) values = append(values, k) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(string(metric.Description.Namespace), string(metric.Description.Subsystem), string(metric.Description.Name)), metric.Description.Help, labels, metric.StaticLabels, ), prometheus.GaugeValue, float64(v), values...) } return true } metricType := prometheus.GaugeValue switch metric.Description.Type { case counterMetric: metricType = prometheus.CounterValue } ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(string(metric.Description.Namespace), string(metric.Description.Subsystem), string(metric.Description.Name)), metric.Description.Help, labels, metric.StaticLabels, ), metricType, metric.Value, values...) return true }) } func getOrderedLabelValueArrays(labelsWithValue map[string]string) (labels, values []string) { labels = make([]string, 0) values = make([]string, 0) for l, v := range labelsWithValue { labels = append(labels, l) values = append(values, v) } return } // newMinioCollectorV2 describes the collector // and returns reference of minioCollector for version 2 // It creates the Prometheus Description which is used // to define Metric and help string func newMinioCollectorV2(generator func() []MetricsGenerator) *minioCollectorV2 { return &minioCollectorV2{ generator: generator, desc: prometheus.NewDesc("minio_stats", "Statistics exposed by MinIO server", nil, nil), } } func metricsServerHandler() http.Handler { registry := prometheus.NewRegistry() // Report all other metrics err := registry.Register(newMinioClusterCollector()) if err != nil { logger.CriticalIf(GlobalContext, err) } // DefaultGatherers include golang metrics and process metrics. gatherers := prometheus.Gatherers{ registry, } // Delegate http serving to Prometheus client library, which will call collector.Collect. return promhttp.InstrumentMetricHandler( registry, promhttp.HandlerFor(gatherers, promhttp.HandlerOpts{ ErrorHandling: promhttp.ContinueOnError, }), ) } func metricsNodeHandler() http.Handler { registry := prometheus.NewRegistry() err := registry.Register(newMinioCollectorV2(GetSingleNodeGenerators)) if err != nil { logger.CriticalIf(GlobalContext, err) } err = registry.Register(prometheus.NewProcessCollector(prometheus.ProcessCollectorOpts{ Namespace: minioNamespace, ReportErrors: true, })) if err != nil { logger.CriticalIf(GlobalContext, err) } err = registry.Register(prometheus.NewGoCollector()) if err != nil { logger.CriticalIf(GlobalContext, err) } gatherers := prometheus.Gatherers{ registry, } // Delegate http serving to Prometheus client library, which will call collector.Collect. return promhttp.InstrumentMetricHandler( registry, promhttp.HandlerFor(gatherers, promhttp.HandlerOpts{ ErrorHandling: promhttp.ContinueOnError, }), ) }