// Copyright (c) 2015-2023 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 ( "bytes" "context" "errors" "fmt" "io" "math/rand" "net/http" "net/url" "runtime" "sync" "time" "github.com/cespare/xxhash/v2" "github.com/klauspost/compress/zip" "github.com/minio/madmin-go/v3" xioutil "github.com/minio/minio/internal/ioutil" xnet "github.com/minio/pkg/v3/net" "github.com/minio/pkg/v3/sync/errgroup" "github.com/minio/pkg/v3/workers" "github.com/minio/minio/internal/bucket/bandwidth" "github.com/minio/minio/internal/logger" ) // This file contains peer related notifications. For sending notifications to // external systems, see event-notification.go // NotificationSys - notification system. type NotificationSys struct { peerClients []*peerRESTClient // Excludes self allPeerClients []*peerRESTClient // Includes nil client for self } // NotificationPeerErr returns error associated for a remote peer. type NotificationPeerErr struct { Host xnet.Host // Remote host on which the rpc call was initiated Err error // Error returned by the remote peer for an rpc call } // A NotificationGroup is a collection of goroutines working on subtasks that are part of // the same overall task. // // A zero NotificationGroup is valid and does not cancel on error. type NotificationGroup struct { workers *workers.Workers errs []NotificationPeerErr retryCount int } // WithNPeers returns a new NotificationGroup with length of errs slice upto nerrs, // upon Wait() errors are returned collected from all tasks. func WithNPeers(nerrs int) *NotificationGroup { if nerrs <= 0 { nerrs = 1 } wk, _ := workers.New(nerrs) return &NotificationGroup{errs: make([]NotificationPeerErr, nerrs), workers: wk, retryCount: 3} } // WithNPeersThrottled returns a new NotificationGroup with length of errs slice upto nerrs, // upon Wait() errors are returned collected from all tasks, optionally allows for X workers // only "per" parallel task. func WithNPeersThrottled(nerrs, wks int) *NotificationGroup { if nerrs <= 0 { nerrs = 1 } wk, _ := workers.New(wks) return &NotificationGroup{errs: make([]NotificationPeerErr, nerrs), workers: wk, retryCount: 3} } // WithRetries sets the retry count for all function calls from the Go method. func (g *NotificationGroup) WithRetries(retryCount int) *NotificationGroup { if g != nil { g.retryCount = retryCount } return g } // Wait blocks until all function calls from the Go method have returned, then // returns the slice of errors from all function calls. func (g *NotificationGroup) Wait() []NotificationPeerErr { g.workers.Wait() return g.errs } // Go calls the given function in a new goroutine. // // The first call to return a non-nil error will be // collected in errs slice and returned by Wait(). func (g *NotificationGroup) Go(ctx context.Context, f func() error, index int, addr xnet.Host) { r := rand.New(rand.NewSource(time.Now().UnixNano())) g.workers.Take() go func() { defer g.workers.Give() g.errs[index] = NotificationPeerErr{ Host: addr, } retryCount := g.retryCount for i := 0; i < retryCount; i++ { g.errs[index].Err = nil if err := f(); err != nil { g.errs[index].Err = err if contextCanceled(ctx) { // context already canceled no retries. retryCount = 0 } // Last iteration log the error. if i == retryCount-1 { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", addr.String()) ctx := logger.SetReqInfo(ctx, reqInfo) peersLogOnceIf(ctx, err, addr.String()) } // Wait for a minimum of 100ms and dynamically increase this based on number of attempts. if i < retryCount-1 { time.Sleep(100*time.Millisecond + time.Duration(r.Float64()*float64(time.Second))) continue } } break } }() } // DeletePolicy - deletes policy across all peers. func (sys *NotificationSys) DeletePolicy(ctx context.Context, policyName string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.DeletePolicy(ctx, policyName) }, idx, *client.host) } return ng.Wait() } // LoadPolicy - reloads a specific modified policy across all peers func (sys *NotificationSys) LoadPolicy(ctx context.Context, policyName string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.LoadPolicy(ctx, policyName) }, idx, *client.host) } return ng.Wait() } // LoadPolicyMapping - reloads a policy mapping across all peers func (sys *NotificationSys) LoadPolicyMapping(ctx context.Context, userOrGroup string, userType IAMUserType, isGroup bool) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.LoadPolicyMapping(ctx, userOrGroup, userType, isGroup) }, idx, *client.host) } return ng.Wait() } // DeleteUser - deletes a specific user across all peers func (sys *NotificationSys) DeleteUser(ctx context.Context, accessKey string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.DeleteUser(ctx, accessKey) }, idx, *client.host) } return ng.Wait() } // LoadUser - reloads a specific user across all peers func (sys *NotificationSys) LoadUser(ctx context.Context, accessKey string, temp bool) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.LoadUser(ctx, accessKey, temp) }, idx, *client.host) } return ng.Wait() } // LoadGroup - loads a specific group on all peers. func (sys *NotificationSys) LoadGroup(ctx context.Context, group string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.LoadGroup(ctx, group) }, idx, *client.host) } return ng.Wait() } // DeleteServiceAccount - deletes a specific service account across all peers func (sys *NotificationSys) DeleteServiceAccount(ctx context.Context, accessKey string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.DeleteServiceAccount(ctx, accessKey) }, idx, *client.host) } return ng.Wait() } // LoadServiceAccount - reloads a specific service account across all peers func (sys *NotificationSys) LoadServiceAccount(ctx context.Context, accessKey string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) for idx, client := range sys.peerClients { client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } return client.LoadServiceAccount(ctx, accessKey) }, idx, *client.host) } return ng.Wait() } // BackgroundHealStatus - returns background heal status of all peers func (sys *NotificationSys) BackgroundHealStatus(ctx context.Context) ([]madmin.BgHealState, []NotificationPeerErr) { ng := WithNPeers(len(sys.peerClients)) states := make([]madmin.BgHealState, len(sys.peerClients)) for idx, client := range sys.peerClients { idx := idx client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } st, err := client.BackgroundHealStatus(ctx) if err != nil { return err } states[idx] = st return nil }, idx, *client.host) } return states, ng.Wait() } // StartProfiling - start profiling on remote peers, by initiating a remote RPC. func (sys *NotificationSys) StartProfiling(profiler string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(GlobalContext, func() error { return client.StartProfiling(profiler) }, idx, *client.host) } return ng.Wait() } // DownloadProfilingData - download profiling data from all remote peers. func (sys *NotificationSys) DownloadProfilingData(ctx context.Context, writer io.Writer) (profilingDataFound bool) { // Initialize a zip writer which will provide a zipped content // of profiling data of all nodes zipWriter := zip.NewWriter(writer) defer zipWriter.Close() for _, client := range sys.peerClients { if client == nil { continue } data, err := client.DownloadProfileData() if err != nil { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", client.host.String()) ctx := logger.SetReqInfo(ctx, reqInfo) peersLogOnceIf(ctx, err, client.host.String()) continue } profilingDataFound = true for typ, data := range data { err := embedFileInZip(zipWriter, fmt.Sprintf("profile-%s-%s", client.host.String(), typ), data, 0o600) if err != nil { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", client.host.String()) ctx := logger.SetReqInfo(ctx, reqInfo) peersLogOnceIf(ctx, err, client.host.String()) } } } // Local host thisAddr, err := xnet.ParseHost(globalLocalNodeName) if err != nil { bugLogIf(ctx, err) return profilingDataFound } data, err := getProfileData() if err != nil { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", thisAddr.String()) ctx := logger.SetReqInfo(ctx, reqInfo) bugLogIf(ctx, err) return profilingDataFound } profilingDataFound = true // Send profiling data to zip as file for typ, data := range data { err := embedFileInZip(zipWriter, fmt.Sprintf("profile-%s-%s", thisAddr, typ), data, 0o600) internalLogIf(ctx, err) } if b := getClusterMetaInfo(ctx); len(b) > 0 { internalLogIf(ctx, embedFileInZip(zipWriter, "cluster.info", b, 0o600)) } return } // VerifyBinary - asks remote peers to verify the checksum func (sys *NotificationSys) VerifyBinary(ctx context.Context, u *url.URL, sha256Sum []byte, releaseInfo string, bin []byte) []NotificationPeerErr { // FIXME: network calls made in this manner such as one goroutine per node, // can easily eat into the internode bandwidth. This function would be mostly // TX saturating, however there are situations where a RX might also saturate. // To avoid these problems we must split the work at scale. With 1000 node // setup becoming a reality we must try to shard the work properly such as // pick 10 nodes that precisely can send those 100 requests the first node // in the 10 node shard would coordinate between other 9 shards to get the // rest of the `99*9` requests. // // This essentially splits the workload properly and also allows for network // utilization to be optimal, instead of blindly throttling the way we are // doing below. However the changes that are needed here are a bit involved, // further discussion advised. Remove this comment and remove the worker model // for this function in future. maxWorkers := runtime.GOMAXPROCS(0) / 2 if maxWorkers > len(sys.peerClients) { maxWorkers = len(sys.peerClients) } ng := WithNPeersThrottled(len(sys.peerClients), maxWorkers) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.VerifyBinary(ctx, u, sha256Sum, releaseInfo, bytes.NewReader(bin)) }, idx, *client.host) } return ng.Wait() } // CommitBinary - asks remote peers to overwrite the old binary with the new one func (sys *NotificationSys) CommitBinary(ctx context.Context) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.CommitBinary(ctx) }, idx, *client.host) } return ng.Wait() } // SignalConfigReload reloads requested sub-system on a remote peer dynamically. func (sys *NotificationSys) SignalConfigReload(subSys string) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(GlobalContext, func() error { return client.SignalService(serviceReloadDynamic, subSys, false, nil) }, idx, *client.host) } return ng.Wait() } // SignalService - calls signal service RPC call on all peers. func (sys *NotificationSys) SignalService(sig serviceSignal) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(GlobalContext, func() error { // force == true preserves the current behavior return client.SignalService(sig, "", false, nil) }, idx, *client.host) } return ng.Wait() } // SignalServiceV2 - calls signal service RPC call on all peers with v2 API func (sys *NotificationSys) SignalServiceV2(sig serviceSignal, dryRun bool, execAt *time.Time) []NotificationPeerErr { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(GlobalContext, func() error { return client.SignalService(sig, "", dryRun, execAt) }, idx, *client.host) } return ng.Wait() } var errPeerNotReachable = errors.New("peer is not reachable") // GetLocks - makes GetLocks RPC call on all peers. func (sys *NotificationSys) GetLocks(ctx context.Context, r *http.Request) []*PeerLocks { locksResp := make([]*PeerLocks, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { index := index client := client g.Go(func() error { if client == nil { return errPeerNotReachable } serverLocksResp, err := sys.peerClients[index].GetLocks(ctx) if err != nil { return err } locksResp[index] = &PeerLocks{ Addr: sys.peerClients[index].host.String(), Locks: serverLocksResp, } return nil }, index) } for index, err := range g.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", sys.peerClients[index].host.String()) ctx := logger.SetReqInfo(ctx, reqInfo) peersLogOnceIf(ctx, err, sys.peerClients[index].host.String()) } locksResp = append(locksResp, &PeerLocks{ Addr: getHostName(r), Locks: globalLockServer.DupLockMap(), }) return locksResp } // LoadBucketMetadata - calls LoadBucketMetadata call on all peers func (sys *NotificationSys) LoadBucketMetadata(ctx context.Context, bucketName string) { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.LoadBucketMetadata(ctx, bucketName) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } } // DeleteBucketMetadata - calls DeleteBucketMetadata call on all peers func (sys *NotificationSys) DeleteBucketMetadata(ctx context.Context, bucketName string) { globalReplicationStats.Delete(bucketName) globalBucketMetadataSys.Remove(bucketName) globalBucketTargetSys.Delete(bucketName) globalEventNotifier.RemoveNotification(bucketName) globalBucketConnStats.delete(bucketName) globalBucketHTTPStats.delete(bucketName) if localMetacacheMgr != nil { localMetacacheMgr.deleteBucketCache(bucketName) } ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.DeleteBucketMetadata(ctx, bucketName) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } } // GetClusterAllBucketStats - returns bucket stats for all buckets from all remote peers. func (sys *NotificationSys) GetClusterAllBucketStats(ctx context.Context) []BucketStatsMap { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) replicationStats := make([]BucketStatsMap, len(sys.peerClients)) for index, client := range sys.peerClients { index := index client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } bsMap, err := client.GetAllBucketStats(ctx) if err != nil { return err } replicationStats[index] = bsMap return nil }, index, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } replicationStatsList := globalReplicationStats.GetAll() bucketStatsMap := BucketStatsMap{ Stats: make(map[string]BucketStats, len(replicationStatsList)), Timestamp: UTCNow(), } for k, replicationStats := range replicationStatsList { bucketStatsMap.Stats[k] = BucketStats{ ReplicationStats: replicationStats, ProxyStats: globalReplicationStats.getProxyStats(k), } } replicationStats = append(replicationStats, bucketStatsMap) return replicationStats } // GetClusterBucketStats - calls GetClusterBucketStats call on all peers for a cluster statistics view. func (sys *NotificationSys) GetClusterBucketStats(ctx context.Context, bucketName string) []BucketStats { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) bucketStats := make([]BucketStats, len(sys.peerClients)) for index, client := range sys.peerClients { index := index client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } bs, err := client.GetBucketStats(ctx, bucketName) if err != nil { return err } bucketStats[index] = bs return nil }, index, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } bucketStats = append(bucketStats, BucketStats{ ReplicationStats: globalReplicationStats.Get(bucketName), QueueStats: ReplicationQueueStats{Nodes: []ReplQNodeStats{globalReplicationStats.getNodeQueueStats(bucketName)}}, ProxyStats: globalReplicationStats.getProxyStats(bucketName), }) return bucketStats } // GetClusterSiteMetrics - calls GetClusterSiteMetrics call on all peers for a cluster statistics view. func (sys *NotificationSys) GetClusterSiteMetrics(ctx context.Context) []SRMetricsSummary { ng := WithNPeers(len(sys.peerClients)).WithRetries(1) siteStats := make([]SRMetricsSummary, len(sys.peerClients)) for index, client := range sys.peerClients { index := index client := client ng.Go(ctx, func() error { if client == nil { return errPeerNotReachable } sm, err := client.GetSRMetrics(ctx) if err != nil { return err } siteStats[index] = sm return nil }, index, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } siteStats = append(siteStats, globalReplicationStats.getSRMetricsForNode()) return siteStats } // ReloadPoolMeta reloads on disk updates on pool metadata func (sys *NotificationSys) ReloadPoolMeta(ctx context.Context) { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.ReloadPoolMeta(ctx) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } } // StopRebalance notifies all MinIO nodes to signal any ongoing rebalance // goroutine to stop. func (sys *NotificationSys) StopRebalance(ctx context.Context) { objAPI := newObjectLayerFn() if objAPI == nil { internalLogIf(ctx, errServerNotInitialized) return } ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.StopRebalance(ctx) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } if pools, ok := objAPI.(*erasureServerPools); ok { pools.StopRebalance() } } // LoadRebalanceMeta notifies all peers to load rebalance.bin from object layer. // Note: Only peers participating in rebalance operation, namely the first node // in each pool will load rebalance.bin. func (sys *NotificationSys) LoadRebalanceMeta(ctx context.Context, startRebalance bool) { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.LoadRebalanceMeta(ctx, startRebalance) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } } // LoadTransitionTierConfig notifies remote peers to load their remote tier // configs from config store. func (sys *NotificationSys) LoadTransitionTierConfig(ctx context.Context) { ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(ctx, func() error { return client.LoadTransitionTierConfig(ctx) }, idx, *client.host) } for _, nErr := range ng.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", nErr.Host.String()) if nErr.Err != nil { peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), nErr.Err, nErr.Host.String()) } } } // GetCPUs - Get all CPU information. func (sys *NotificationSys) GetCPUs(ctx context.Context) []madmin.CPUs { reply := make([]madmin.CPUs, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetCPUs(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetNetInfo - Network information func (sys *NotificationSys) GetNetInfo(ctx context.Context) []madmin.NetInfo { reply := make([]madmin.NetInfo, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetNetInfo(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetPartitions - Disk partition information func (sys *NotificationSys) GetPartitions(ctx context.Context) []madmin.Partitions { reply := make([]madmin.Partitions, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetPartitions(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetOSInfo - Get operating system's information func (sys *NotificationSys) GetOSInfo(ctx context.Context) []madmin.OSInfo { reply := make([]madmin.OSInfo, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetOSInfo(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetMetrics - Get metrics from all peers. func (sys *NotificationSys) GetMetrics(ctx context.Context, t madmin.MetricType, opts collectMetricsOpts) []madmin.RealtimeMetrics { reply := make([]madmin.RealtimeMetrics, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } host := client.host.String() if len(opts.hosts) > 0 { if _, ok := opts.hosts[host]; !ok { continue } } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetMetrics(ctx, t, opts) return err }, index) } for index, err := range g.Wait() { if err != nil { reply[index].Errors = []string{fmt.Sprintf("%s: %s (rpc)", sys.peerClients[index].String(), err.Error())} } } return reply } // GetResourceMetrics - gets the resource metrics from all nodes excluding self. func (sys *NotificationSys) GetResourceMetrics(ctx context.Context) <-chan MetricV2 { if sys == nil { return nil } g := errgroup.WithNErrs(len(sys.peerClients)) peerChannels := make([]<-chan MetricV2, len(sys.peerClients)) for index := range sys.peerClients { index := index g.Go(func() error { if sys.peerClients[index] == nil { return errPeerNotReachable } var err error peerChannels[index], err = sys.peerClients[index].GetResourceMetrics(ctx) return err }, index) } return sys.collectPeerMetrics(ctx, peerChannels, g) } // GetSysConfig - Get information about system config // (only the config that are of concern to minio) func (sys *NotificationSys) GetSysConfig(ctx context.Context) []madmin.SysConfig { reply := make([]madmin.SysConfig, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetSysConfig(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetSysServices - Get information about system services // (only the services that are of concern to minio) func (sys *NotificationSys) GetSysServices(ctx context.Context) []madmin.SysServices { reply := make([]madmin.SysServices, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetSELinuxInfo(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } func (sys *NotificationSys) addNodeErr(nodeInfo madmin.NodeInfo, peerClient *peerRESTClient, err error) { addr := peerClient.host.String() reqInfo := (&logger.ReqInfo{}).AppendTags("remotePeer", addr) ctx := logger.SetReqInfo(GlobalContext, reqInfo) peersLogOnceIf(ctx, err, "add-node-err-"+addr) nodeInfo.SetAddr(addr) nodeInfo.SetError(err.Error()) } // GetSysErrors - Memory information func (sys *NotificationSys) GetSysErrors(ctx context.Context) []madmin.SysErrors { reply := make([]madmin.SysErrors, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetSysErrors(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetMemInfo - Memory information func (sys *NotificationSys) GetMemInfo(ctx context.Context) []madmin.MemInfo { reply := make([]madmin.MemInfo, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetMemInfo(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // GetProcInfo - Process information func (sys *NotificationSys) GetProcInfo(ctx context.Context) []madmin.ProcInfo { reply := make([]madmin.ProcInfo, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } index := index g.Go(func() error { var err error reply[index], err = sys.peerClients[index].GetProcInfo(ctx) return err }, index) } for index, err := range g.Wait() { if err != nil { sys.addNodeErr(&reply[index], sys.peerClients[index], err) } } return reply } // Construct a list of offline disks information for a given node. // If offlineHost is empty, do it for the local disks. func getOfflineDisks(offlineHost string, endpoints EndpointServerPools) []madmin.Disk { var offlineDisks []madmin.Disk for _, pool := range endpoints { for _, ep := range pool.Endpoints { if offlineHost == "" && ep.IsLocal || offlineHost == ep.Host { offlineDisks = append(offlineDisks, madmin.Disk{ Endpoint: ep.String(), State: string(madmin.ItemOffline), PoolIndex: ep.PoolIdx, SetIndex: ep.SetIdx, DiskIndex: ep.DiskIdx, }) } } } return offlineDisks } // StorageInfo returns disk information across all peers func (sys *NotificationSys) StorageInfo(ctx context.Context, objLayer ObjectLayer, metrics bool) StorageInfo { var storageInfo StorageInfo replies := make([]StorageInfo, len(sys.peerClients)) var wg sync.WaitGroup for i, client := range sys.peerClients { if client == nil { continue } wg.Add(1) go func(client *peerRESTClient, idx int) { defer wg.Done() info, err := client.LocalStorageInfo(ctx, metrics) if err != nil { info.Disks = getOfflineDisks(client.host.String(), globalEndpoints) } replies[idx] = info }(client, i) } wg.Wait() // Add local to this server. replies = append(replies, objLayer.LocalStorageInfo(ctx, metrics)) storageInfo.Backend = objLayer.BackendInfo() for _, sinfo := range replies { storageInfo.Disks = append(storageInfo.Disks, sinfo.Disks...) } return storageInfo } // ServerInfo - calls ServerInfo RPC call on all peers. func (sys *NotificationSys) ServerInfo(ctx context.Context, metrics bool) []madmin.ServerProperties { reply := make([]madmin.ServerProperties, len(sys.peerClients)) var wg sync.WaitGroup for i, client := range sys.peerClients { if client == nil { continue } wg.Add(1) go func(client *peerRESTClient, idx int) { defer wg.Done() info, err := client.ServerInfo(ctx, metrics) if err != nil { info.Endpoint = client.host.String() info.State = string(madmin.ItemOffline) info.Disks = getOfflineDisks(info.Endpoint, globalEndpoints) } reply[idx] = info }(client, i) } wg.Wait() return reply } // restClientFromHash will return a deterministic peerRESTClient based on s. // Will return nil if client is local. func (sys *NotificationSys) restClientFromHash(s string) (client *peerRESTClient) { if len(sys.peerClients) == 0 { return nil } peerClients := sys.allPeerClients if len(peerClients) == 0 { return nil } idx := xxhash.Sum64String(s) % uint64(len(peerClients)) return peerClients[idx] } // GetPeerOnlineCount gets the count of online and offline nodes. func (sys *NotificationSys) GetPeerOnlineCount() (nodesOnline, nodesOffline int) { nodesOnline = 1 // Self is always online. nodesOffline = 0 nodesOnlineIndex := make([]bool, len(sys.peerClients)) var wg sync.WaitGroup for idx, client := range sys.peerClients { if client == nil { continue } wg.Add(1) go func(idx int, client *peerRESTClient) { defer wg.Done() nodesOnlineIndex[idx] = client.restClient.HealthCheckFn() }(idx, client) } wg.Wait() for _, online := range nodesOnlineIndex { if online { nodesOnline++ } else { nodesOffline++ } } return } // NewNotificationSys - creates new notification system object. func NewNotificationSys(endpoints EndpointServerPools) *NotificationSys { remote, all := newPeerRestClients(endpoints) return &NotificationSys{ peerClients: remote, allPeerClients: all, } } // GetBandwidthReports - gets the bandwidth report from all nodes including self. func (sys *NotificationSys) GetBandwidthReports(ctx context.Context, buckets ...string) bandwidth.BucketBandwidthReport { reports := make([]*bandwidth.BucketBandwidthReport, len(sys.peerClients)) g := errgroup.WithNErrs(len(sys.peerClients)) for index := range sys.peerClients { if sys.peerClients[index] == nil { continue } index := index g.Go(func() error { var err error reports[index], err = sys.peerClients[index].MonitorBandwidth(ctx, buckets) return err }, index) } for index, err := range g.Wait() { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", sys.peerClients[index].host.String()) ctx := logger.SetReqInfo(ctx, reqInfo) peersLogOnceIf(ctx, err, sys.peerClients[index].host.String()) } reports = append(reports, globalBucketMonitor.GetReport(bandwidth.SelectBuckets(buckets...))) consolidatedReport := bandwidth.BucketBandwidthReport{ BucketStats: make(map[bandwidth.BucketOptions]bandwidth.Details), } for _, report := range reports { if report == nil || report.BucketStats == nil { continue } for opts := range report.BucketStats { d, ok := consolidatedReport.BucketStats[opts] if !ok { d = bandwidth.Details{ LimitInBytesPerSecond: report.BucketStats[opts].LimitInBytesPerSecond, } } dt, ok := report.BucketStats[opts] if ok { d.CurrentBandwidthInBytesPerSecond += dt.CurrentBandwidthInBytesPerSecond } consolidatedReport.BucketStats[opts] = d } } return consolidatedReport } func (sys *NotificationSys) collectPeerMetrics(ctx context.Context, peerChannels []<-chan MetricV2, g *errgroup.Group) <-chan MetricV2 { ch := make(chan MetricV2) var wg sync.WaitGroup for index, err := range g.Wait() { if err != nil { if sys.peerClients[index] != nil { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", sys.peerClients[index].host.String()) peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), err, sys.peerClients[index].host.String()) } else { peersLogOnceIf(ctx, err, "peer-offline") } continue } wg.Add(1) go func(ctx context.Context, peerChannel <-chan MetricV2, wg *sync.WaitGroup) { defer wg.Done() for { select { case m, ok := <-peerChannel: if !ok { return } select { case ch <- m: case <-ctx.Done(): return } case <-ctx.Done(): return } } }(ctx, peerChannels[index], &wg) } go func(wg *sync.WaitGroup, ch chan MetricV2) { wg.Wait() xioutil.SafeClose(ch) }(&wg, ch) return ch } // GetBucketMetrics - gets the cluster level bucket metrics from all nodes excluding self. func (sys *NotificationSys) GetBucketMetrics(ctx context.Context) <-chan MetricV2 { if sys == nil { return nil } g := errgroup.WithNErrs(len(sys.peerClients)) peerChannels := make([]<-chan MetricV2, len(sys.peerClients)) for index := range sys.peerClients { index := index g.Go(func() error { if sys.peerClients[index] == nil { return errPeerNotReachable } var err error peerChannels[index], err = sys.peerClients[index].GetPeerBucketMetrics(ctx) return err }, index) } return sys.collectPeerMetrics(ctx, peerChannels, g) } // GetClusterMetrics - gets the cluster metrics from all nodes excluding self. func (sys *NotificationSys) GetClusterMetrics(ctx context.Context) <-chan MetricV2 { if sys == nil { return nil } g := errgroup.WithNErrs(len(sys.peerClients)) peerChannels := make([]<-chan MetricV2, len(sys.peerClients)) for index := range sys.peerClients { index := index g.Go(func() error { if sys.peerClients[index] == nil { return errPeerNotReachable } var err error peerChannels[index], err = sys.peerClients[index].GetPeerMetrics(ctx) return err }, index) } return sys.collectPeerMetrics(ctx, peerChannels, g) } // ServiceFreeze freezes all S3 API calls when 'freeze' is true, // 'freeze' is 'false' would resume all S3 API calls again. // NOTE: once a tenant is frozen either two things needs to // happen before resuming normal operations. // - Server needs to be restarted 'mc admin service restart' // - 'freeze' should be set to 'false' for this call // to resume normal operations. func (sys *NotificationSys) ServiceFreeze(ctx context.Context, freeze bool) []NotificationPeerErr { serviceSig := serviceUnFreeze if freeze { serviceSig = serviceFreeze } ng := WithNPeers(len(sys.peerClients)) for idx, client := range sys.peerClients { if client == nil { continue } client := client ng.Go(GlobalContext, func() error { return client.SignalService(serviceSig, "", false, nil) }, idx, *client.host) } nerrs := ng.Wait() if freeze { freezeServices() } else { unfreezeServices() } return nerrs } // Netperf - perform mesh style network throughput test func (sys *NotificationSys) Netperf(ctx context.Context, duration time.Duration) []madmin.NetperfNodeResult { length := len(sys.allPeerClients) if length == 0 { // For single node erasure setup. return nil } results := make([]madmin.NetperfNodeResult, length) scheme := "http" if globalIsTLS { scheme = "https" } var wg sync.WaitGroup for index := range sys.peerClients { if sys.peerClients[index] == nil { continue } wg.Add(1) go func(index int) { defer wg.Done() r, err := sys.peerClients[index].Netperf(ctx, duration) u := &url.URL{ Scheme: scheme, Host: sys.peerClients[index].host.String(), } if err != nil { results[index].Error = err.Error() } else { results[index] = r } results[index].Endpoint = u.String() }(index) } wg.Add(1) go func() { defer wg.Done() r := netperf(ctx, duration) u := &url.URL{ Scheme: scheme, Host: globalLocalNodeName, } results[len(results)-1] = r results[len(results)-1].Endpoint = u.String() }() wg.Wait() return results } // SpeedTest run GET/PUT tests at input concurrency for requested object size, // optionally you can extend the tests longer with time.Duration. func (sys *NotificationSys) SpeedTest(ctx context.Context, sopts speedTestOpts) []SpeedTestResult { length := len(sys.allPeerClients) if length == 0 { // For single node erasure setup. length = 1 } results := make([]SpeedTestResult, length) scheme := "http" if globalIsTLS { scheme = "https" } var wg sync.WaitGroup for index := range sys.peerClients { if sys.peerClients[index] == nil { continue } wg.Add(1) go func(index int) { defer wg.Done() r, err := sys.peerClients[index].SpeedTest(ctx, sopts) u := &url.URL{ Scheme: scheme, Host: sys.peerClients[index].host.String(), } if err != nil { results[index].Error = err.Error() } else { results[index] = r } results[index].Endpoint = u.String() }(index) } wg.Add(1) go func() { defer wg.Done() r, err := selfSpeedTest(ctx, sopts) u := &url.URL{ Scheme: scheme, Host: globalLocalNodeName, } if err != nil { results[len(results)-1].Error = err.Error() } else { results[len(results)-1] = r } results[len(results)-1].Endpoint = u.String() }() wg.Wait() return results } // DriveSpeedTest - Drive performance information func (sys *NotificationSys) DriveSpeedTest(ctx context.Context, opts madmin.DriveSpeedTestOpts) chan madmin.DriveSpeedTestResult { ch := make(chan madmin.DriveSpeedTestResult) var wg sync.WaitGroup for _, client := range sys.peerClients { if client == nil { continue } wg.Add(1) go func(client *peerRESTClient) { defer wg.Done() resp, err := client.DriveSpeedTest(ctx, opts) if err != nil { resp.Error = err.Error() } select { case <-ctx.Done(): case ch <- resp: } reqInfo := (&logger.ReqInfo{}).AppendTags("remotePeer", client.host.String()) ctx := logger.SetReqInfo(GlobalContext, reqInfo) peersLogOnceIf(ctx, err, client.host.String()) }(client) } wg.Add(1) go func() { defer wg.Done() select { case <-ctx.Done(): case ch <- driveSpeedTest(ctx, opts): } }() go func(wg *sync.WaitGroup, ch chan madmin.DriveSpeedTestResult) { wg.Wait() xioutil.SafeClose(ch) }(&wg, ch) return ch } // ReloadSiteReplicationConfig - tells all peer minio nodes to reload the // site-replication configuration. func (sys *NotificationSys) ReloadSiteReplicationConfig(ctx context.Context) []error { errs := make([]error, len(sys.allPeerClients)) var wg sync.WaitGroup for index := range sys.peerClients { if sys.peerClients[index] == nil { continue } wg.Add(1) go func(index int) { defer wg.Done() errs[index] = sys.peerClients[index].ReloadSiteReplicationConfig(ctx) }(index) } wg.Wait() return errs } // GetLastDayTierStats fetches per-tier stats of the last 24hrs from all peers func (sys *NotificationSys) GetLastDayTierStats(ctx context.Context) DailyAllTierStats { errs := make([]error, len(sys.allPeerClients)) lastDayStats := make([]DailyAllTierStats, len(sys.allPeerClients)) var wg sync.WaitGroup for index := range sys.peerClients { if sys.peerClients[index] == nil { continue } wg.Add(1) go func(index int) { defer wg.Done() lastDayStats[index], errs[index] = sys.peerClients[index].GetLastDayTierStats(ctx) }(index) } wg.Wait() merged := globalTransitionState.getDailyAllTierStats() for i, stat := range lastDayStats { if errs[i] != nil { peersLogOnceIf(ctx, fmt.Errorf("failed to fetch last day tier stats: %w", errs[i]), sys.peerClients[i].host.String()) continue } merged.merge(stat) } return merged } // GetReplicationMRF - Get replication MRF from all peers. func (sys *NotificationSys) GetReplicationMRF(ctx context.Context, bucket, node string) (mrfCh chan madmin.ReplicationMRF, err error) { g := errgroup.WithNErrs(len(sys.peerClients)) peerChannels := make([]<-chan madmin.ReplicationMRF, len(sys.peerClients)) for index, client := range sys.peerClients { if client == nil { continue } host := client.host.String() if host != node && node != "all" { continue } index := index g.Go(func() error { var err error peerChannels[index], err = sys.peerClients[index].GetReplicationMRF(ctx, bucket) return err }, index) } mrfCh = make(chan madmin.ReplicationMRF, 4000) var wg sync.WaitGroup for index, err := range g.Wait() { if err != nil { if sys.peerClients[index] != nil { reqInfo := (&logger.ReqInfo{}).AppendTags("peerAddress", sys.peerClients[index].host.String()) peersLogOnceIf(logger.SetReqInfo(ctx, reqInfo), err, sys.peerClients[index].host.String()) } else { peersLogOnceIf(ctx, err, "peer-offline") } continue } wg.Add(1) go func(ctx context.Context, peerChannel <-chan madmin.ReplicationMRF, wg *sync.WaitGroup) { defer wg.Done() for { select { case m, ok := <-peerChannel: if !ok { return } select { case <-ctx.Done(): return case mrfCh <- m: } case <-ctx.Done(): return } } }(ctx, peerChannels[index], &wg) } wg.Add(1) go func(ch chan madmin.ReplicationMRF) error { defer wg.Done() if node != "all" && node != globalLocalNodeName { return nil } mCh, err := globalReplicationPool.getMRF(ctx, bucket) if err != nil { return err } for e := range mCh { select { case <-ctx.Done(): return err case mrfCh <- e: } } return nil }(mrfCh) go func(wg *sync.WaitGroup) { wg.Wait() xioutil.SafeClose(mrfCh) }(&wg) return mrfCh, nil }