// Copyright (c) 2015-2021 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 ( "net/http" "strings" "time" "github.com/minio/minio/internal/logger" "github.com/minio/minio/internal/mcontext" iampolicy "github.com/minio/pkg/iam/policy" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/expfmt" ) var ( httpRequestsDuration = prometheus.NewHistogramVec( prometheus.HistogramOpts{ Name: "s3_ttfb_seconds", Help: "Time taken by requests served by current MinIO server instance", Buckets: []float64{.05, .1, .25, .5, 1, 2.5, 5, 10}, }, []string{"api"}, ) minioVersionInfo = prometheus.NewGaugeVec( prometheus.GaugeOpts{ Namespace: "minio", Name: "version_info", Help: "Version of current MinIO server instance", }, []string{ // current version "version", // commit-id of the current version "commit", }, ) ) const ( healMetricsNamespace = "self_heal" cacheNamespace = "cache" s3Namespace = "s3" bucketNamespace = "bucket" minioNamespace = "minio" diskNamespace = "disk" interNodeNamespace = "internode" ) func init() { prometheus.MustRegister(httpRequestsDuration) prometheus.MustRegister(newMinioCollector()) prometheus.MustRegister(minioVersionInfo) } // newMinioCollector describes the collector // and returns reference of minioCollector // It creates the Prometheus Description which is used // to define metric and help string func newMinioCollector() *minioCollector { return &minioCollector{ desc: prometheus.NewDesc("minio_stats", "Statistics exposed by MinIO server", nil, nil), } } // minioCollector is the Custom Collector type minioCollector struct { desc *prometheus.Desc } // Describe sends the super-set of all possible descriptors of metrics func (c *minioCollector) Describe(ch chan<- *prometheus.Desc) { ch <- c.desc } // Collect is called by the Prometheus registry when collecting metrics. func (c *minioCollector) Collect(ch chan<- prometheus.Metric) { // Expose MinIO's version information minioVersionInfo.WithLabelValues(Version, CommitID).Set(1.0) storageMetricsPrometheus(ch) nodeHealthMetricsPrometheus(ch) bucketUsageMetricsPrometheus(ch) networkMetricsPrometheus(ch) httpMetricsPrometheus(ch) cacheMetricsPrometheus(ch) healingMetricsPrometheus(ch) } func nodeHealthMetricsPrometheus(ch chan<- prometheus.Metric) { nodesUp, nodesDown := globalNotificationSys.GetPeerOnlineCount() ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "nodes", "online"), "Total number of MinIO nodes online", nil, nil), prometheus.GaugeValue, float64(nodesUp), ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "nodes", "offline"), "Total number of MinIO nodes offline", nil, nil), prometheus.GaugeValue, float64(nodesDown), ) } // collects healing specific metrics for MinIO instance in Prometheus specific format // and sends to given channel func healingMetricsPrometheus(ch chan<- prometheus.Metric) { bgSeq, exists := globalBackgroundHealState.getHealSequenceByToken(bgHealingUUID) if !exists { return } var dur time.Duration if !bgSeq.lastHealActivity.IsZero() { dur = time.Since(bgSeq.lastHealActivity) } ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(healMetricsNamespace, "time", "since_last_activity"), "Time elapsed (in nano seconds) since last self healing activity. This is set to -1 until initial self heal activity", nil, nil), prometheus.GaugeValue, float64(dur), ) for k, v := range bgSeq.getScannedItemsMap() { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(healMetricsNamespace, "objects", "scanned"), "Objects scanned in current self healing run", []string{"type"}, nil), prometheus.GaugeValue, float64(v), string(k), ) } for k, v := range bgSeq.getHealedItemsMap() { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(healMetricsNamespace, "objects", "healed"), "Objects healed in current self healing run", []string{"type"}, nil), prometheus.GaugeValue, float64(v), string(k), ) } for k, v := range bgSeq.gethealFailedItemsMap() { // healFailedItemsMap stores the endpoint and volume state separated by comma, // split the fields and pass to channel at correct index s := strings.Split(k, ",") ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(healMetricsNamespace, "objects", "heal_failed"), "Objects for which healing failed in current self healing run", []string{"mount_path", "volume_status"}, nil), prometheus.GaugeValue, float64(v), s[0], s[1], ) } } // collects cache metrics for MinIO server in Prometheus specific format // and sends to given channel func cacheMetricsPrometheus(ch chan<- prometheus.Metric) { cacheObjLayer := newCachedObjectLayerFn() // Service not initialized yet if cacheObjLayer == nil { return } ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(cacheNamespace, "hits", "total"), "Total number of drive cache hits in current MinIO instance", nil, nil), prometheus.CounterValue, float64(cacheObjLayer.CacheStats().getHits()), ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(cacheNamespace, "misses", "total"), "Total number of drive cache misses in current MinIO instance", nil, nil), prometheus.CounterValue, float64(cacheObjLayer.CacheStats().getMisses()), ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(cacheNamespace, "data", "served"), "Total number of bytes served from cache of current MinIO instance", nil, nil), prometheus.CounterValue, float64(cacheObjLayer.CacheStats().getBytesServed()), ) for _, cdStats := range cacheObjLayer.CacheStats().GetDiskStats() { // Cache disk usage percentage ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(cacheNamespace, "usage", "percent"), "Total percentage cache usage", []string{"disk"}, nil), prometheus.GaugeValue, float64(cdStats.UsagePercent), cdStats.Dir, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(cacheNamespace, "usage", "high"), "Indicates cache usage is high or low, relative to current cache 'quota' settings", []string{"disk"}, nil), prometheus.GaugeValue, float64(cdStats.UsageState), cdStats.Dir, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("cache", "usage", "size"), "Indicates current cache usage in bytes", []string{"disk"}, nil), prometheus.GaugeValue, float64(cdStats.UsageSize), cdStats.Dir, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("cache", "total", "size"), "Indicates total size of cache drive", []string{"disk"}, nil), prometheus.GaugeValue, float64(cdStats.TotalCapacity), cdStats.Dir, ) } } // collects http metrics for MinIO server in Prometheus specific format // and sends to given channel func httpMetricsPrometheus(ch chan<- prometheus.Metric) { httpStats := globalHTTPStats.toServerHTTPStats() for api, value := range httpStats.CurrentS3Requests.APIStats { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "requests", "current"), "Total number of running s3 requests in current MinIO server instance", []string{"api"}, nil), prometheus.CounterValue, float64(value), api, ) } for api, value := range httpStats.TotalS3Requests.APIStats { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "requests", "total"), "Total number of s3 requests in current MinIO server instance", []string{"api"}, nil), prometheus.CounterValue, float64(value), api, ) } for api, value := range httpStats.TotalS3Errors.APIStats { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "errors", "total"), "Total number of s3 errors in current MinIO server instance", []string{"api"}, nil), prometheus.CounterValue, float64(value), api, ) } for api, value := range httpStats.TotalS3Canceled.APIStats { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "canceled", "total"), "Total number of client canceled s3 request in current MinIO server instance", []string{"api"}, nil), prometheus.CounterValue, float64(value), api, ) } } // collects network metrics for MinIO server in Prometheus specific format // and sends to given channel func networkMetricsPrometheus(ch chan<- prometheus.Metric) { connStats := globalConnStats.toServerConnStats() // Network Sent/Received Bytes (internode) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(interNodeNamespace, "tx", "bytes_total"), "Total number of bytes sent to the other peer nodes by current MinIO server instance", nil, nil), prometheus.CounterValue, float64(connStats.TotalOutputBytes), ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(interNodeNamespace, "rx", "bytes_total"), "Total number of internode bytes received by current MinIO server instance", nil, nil), prometheus.CounterValue, float64(connStats.TotalInputBytes), ) // Network Sent/Received Bytes (Outbound) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "tx", "bytes_total"), "Total number of s3 bytes sent by current MinIO server instance", nil, nil), prometheus.CounterValue, float64(connStats.S3OutputBytes), ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(s3Namespace, "rx", "bytes_total"), "Total number of s3 bytes received by current MinIO server instance", nil, nil), prometheus.CounterValue, float64(connStats.S3InputBytes), ) } // Populates prometheus with bucket usage metrics, this metrics // is only enabled if scanner is enabled. func bucketUsageMetricsPrometheus(ch chan<- prometheus.Metric) { objLayer := newObjectLayerFn() // Service not initialized yet if objLayer == nil { 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, usageInfo := range dataUsageInfo.BucketsUsage { stat := globalReplicationStats.getLatestReplicationStats(bucket, usageInfo) // Total space used by bucket ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(bucketNamespace, "usage", "size"), "Total bucket size", []string{"bucket"}, nil), prometheus.GaugeValue, float64(usageInfo.Size), bucket, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(bucketNamespace, "objects", "count"), "Total number of objects in a bucket", []string{"bucket"}, nil), prometheus.GaugeValue, float64(usageInfo.ObjectsCount), bucket, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("bucket", "replication", "failed_size"), "Total capacity failed to replicate at least once", []string{"bucket"}, nil), prometheus.GaugeValue, float64(stat.FailedSize), bucket, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("bucket", "replication", "successful_size"), "Total capacity replicated to destination", []string{"bucket"}, nil), prometheus.GaugeValue, float64(stat.ReplicatedSize), bucket, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("bucket", "replication", "received_size"), "Total capacity replicated to this instance", []string{"bucket"}, nil), prometheus.GaugeValue, float64(stat.ReplicaSize), bucket, ) ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName("bucket", "replication", "failed_count"), "Total replication operations failed", []string{"bucket"}, nil), prometheus.GaugeValue, float64(stat.FailedCount), bucket, ) for k, v := range usageInfo.ObjectSizesHistogram { ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(bucketNamespace, "objects", "histogram"), "Total number of objects of different sizes in a bucket", []string{"bucket", "object_size"}, nil), prometheus.GaugeValue, float64(v), bucket, k, ) } } } // collects storage metrics for MinIO server in Prometheus specific format // and sends to given channel func storageMetricsPrometheus(ch chan<- prometheus.Metric) { objLayer := newObjectLayerFn() // Service not initialized yet if objLayer == nil { return } server := getLocalServerProperty(globalEndpoints, &http.Request{ Host: globalLocalNodeName, }) onlineDisks, offlineDisks := getOnlineOfflineDisksStats(server.Disks) totalDisks := offlineDisks.Merge(onlineDisks) // Report total capacity ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "capacity_raw", "total"), "Total capacity online in the cluster", nil, nil), prometheus.GaugeValue, float64(GetTotalCapacity(server.Disks)), ) // Report total capacity free ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "capacity_raw_free", "total"), "Total free capacity online in the cluster", nil, nil), prometheus.GaugeValue, float64(GetTotalCapacityFree(server.Disks)), ) sinfo := objLayer.StorageInfo(GlobalContext) // Report total usable capacity ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "capacity_usable", "total"), "Total usable capacity online in the cluster", nil, nil), prometheus.GaugeValue, float64(GetTotalUsableCapacity(server.Disks, sinfo)), ) // Report total usable capacity free ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "capacity_usable_free", "total"), "Total free usable capacity online in the cluster", nil, nil), prometheus.GaugeValue, float64(GetTotalUsableCapacityFree(server.Disks, sinfo)), ) // MinIO Offline Disks per node ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "disks", "offline"), "Total number of offline drives in current MinIO server instance", nil, nil), prometheus.GaugeValue, float64(offlineDisks.Sum()), ) // MinIO Total Disks per node ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(minioNamespace, "drives", "total"), "Total number of drives for current MinIO server instance", nil, nil), prometheus.GaugeValue, float64(totalDisks.Sum()), ) for _, disk := range server.Disks { // Total disk usage by the disk ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(diskNamespace, "storage", "used"), "Total disk storage used on the drive", []string{"disk"}, nil), prometheus.GaugeValue, float64(disk.UsedSpace), disk.DrivePath, ) // Total available space in the disk ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(diskNamespace, "storage", "available"), "Total available space left on the drive", []string{"disk"}, nil), prometheus.GaugeValue, float64(disk.AvailableSpace), disk.DrivePath, ) // Total storage space of the disk ch <- prometheus.MustNewConstMetric( prometheus.NewDesc( prometheus.BuildFQName(diskNamespace, "storage", "total"), "Total space on the drive", []string{"disk"}, nil), prometheus.GaugeValue, float64(disk.TotalSpace), disk.DrivePath, ) } } func metricsHandler() http.Handler { registry := prometheus.NewRegistry() logger.CriticalIf(GlobalContext, registry.Register(minioVersionInfo)) logger.CriticalIf(GlobalContext, registry.Register(newMinioCollector())) gatherers := prometheus.Gatherers{ prometheus.DefaultGatherer, registry, } return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { tc, ok := r.Context().Value(mcontext.ContextTraceKey).(*mcontext.TraceCtxt) if ok { tc.FuncName = "handler.MetricsLegacy" tc.ResponseRecorder.LogErrBody = true } mfs, err := gatherers.Gather() if err != nil { if len(mfs) == 0 { writeErrorResponseJSON(r.Context(), w, toAdminAPIErr(r.Context(), err), r.URL) return } } contentType := expfmt.Negotiate(r.Header) w.Header().Set("Content-Type", string(contentType)) enc := expfmt.NewEncoder(w, contentType) for _, mf := range mfs { if err := enc.Encode(mf); err != nil { logger.LogIf(r.Context(), err) return } } if closer, ok := enc.(expfmt.Closer); ok { closer.Close() } }) } // AuthMiddleware checks if the bearer token is valid and authorized. func AuthMiddleware(h http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { tc, ok := r.Context().Value(mcontext.ContextTraceKey).(*mcontext.TraceCtxt) claims, groups, owner, authErr := metricsRequestAuthenticate(r) if authErr != nil || !claims.VerifyIssuer("prometheus", true) { if ok { tc.FuncName = "handler.MetricsAuth" tc.ResponseRecorder.LogErrBody = true } writeErrorResponseJSON(r.Context(), w, toAdminAPIErr(r.Context(), errAuthentication), r.URL) return } // For authenticated users apply IAM policy. if !globalIAMSys.IsAllowed(iampolicy.Args{ AccountName: claims.AccessKey, Groups: groups, Action: iampolicy.PrometheusAdminAction, ConditionValues: getConditionValues(r, "", claims.AccessKey, claims.Map()), IsOwner: owner, Claims: claims.Map(), }) { if ok { tc.FuncName = "handler.MetricsAuth" tc.ResponseRecorder.LogErrBody = true } writeErrorResponseJSON(r.Context(), w, toAdminAPIErr(r.Context(), errAuthentication), r.URL) return } h.ServeHTTP(w, r) }) }