// 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 ( "context" "fmt" "net/url" "sync" "time" jsoniter "github.com/json-iterator/go" "github.com/minio/madmin-go" "github.com/minio/minio-go/v7" miniogo "github.com/minio/minio-go/v7" "github.com/minio/minio-go/v7/pkg/credentials" "github.com/minio/minio/internal/bucket/replication" "github.com/minio/minio/internal/bucket/versioning" "github.com/minio/minio/internal/crypto" "github.com/minio/minio/internal/kms" "github.com/minio/minio/internal/logger" ) const ( defaultHealthCheckDuration = 5 * time.Second // default interval for reload of all remote target endpoints defaultHealthCheckReloadDuration = 30 * time.Minute ) // BucketTargetSys represents bucket targets subsystem type BucketTargetSys struct { sync.RWMutex arnRemotesMap map[string]*TargetClient targetsMap map[string][]madmin.BucketTarget hMutex sync.RWMutex hc map[string]epHealth hcClient *madmin.AnonymousClient } // epHealth struct represents health of a replication target endpoint. type epHealth struct { Endpoint string Scheme string Online bool } // isOffline returns current liveness result of remote target. Add endpoint to // healthcheck map if missing and default to online status func (sys *BucketTargetSys) isOffline(ep *url.URL) bool { sys.hMutex.RLock() defer sys.hMutex.RUnlock() if h, ok := sys.hc[ep.Host]; ok { return !h.Online } go sys.initHC(ep) return false } func (sys *BucketTargetSys) initHC(ep *url.URL) { sys.hMutex.Lock() sys.hc[ep.Host] = epHealth{ Endpoint: ep.Host, Scheme: ep.Scheme, Online: true, } sys.hMutex.Unlock() } // newHCClient initializes an anonymous client for performing health check on the remote endpoints func newHCClient() *madmin.AnonymousClient { clnt, e := madmin.NewAnonymousClientNoEndpoint() if e != nil { logger.LogOnceIf(GlobalContext, fmt.Errorf("WARNING: Unable to initialize health check client"), string(replicationSubsystem)) return nil } clnt.SetCustomTransport(globalRemoteTargetTransport) return clnt } // heartBeat performs liveness check on remote endpoints. func (sys *BucketTargetSys) heartBeat(ctx context.Context) { hcTimer := time.NewTimer(defaultHealthCheckDuration) defer hcTimer.Stop() for { select { case <-hcTimer.C: sys.hMutex.RLock() var eps []madmin.ServerProperties for _, ep := range sys.hc { eps = append(eps, madmin.ServerProperties{Endpoint: ep.Endpoint, Scheme: ep.Scheme}) } sys.hMutex.RUnlock() if len(eps) > 0 { cctx, cancel := context.WithTimeout(ctx, 30*time.Second) m := map[string]epHealth{} for result := range sys.hcClient.Alive(cctx, madmin.AliveOpts{}, eps...) { var online bool if result.Error == nil { online = result.Online } m[result.Endpoint.Host] = epHealth{ Endpoint: result.Endpoint.Host, Scheme: result.Endpoint.Scheme, Online: online, } } cancel() sys.hMutex.Lock() sys.hc = m sys.hMutex.Unlock() } hcTimer.Reset(defaultHealthCheckDuration) case <-ctx.Done(): return } } } // periodically rebuild the healthcheck map from list of targets to clear // out stale endpoints func (sys *BucketTargetSys) reloadHealthCheckers(ctx context.Context) { m := make(map[string]epHealth) tgts := sys.ListTargets(ctx, "", "") for _, t := range tgts { if _, ok := m[t.Endpoint]; !ok { scheme := "http" if t.Secure { scheme = "https" } m[t.Endpoint] = epHealth{ Online: true, Endpoint: t.Endpoint, Scheme: scheme, } } } sys.hMutex.Lock() // swap out the map sys.hc = m sys.hMutex.Unlock() } // ListTargets lists bucket targets across tenant or for individual bucket, and returns // results filtered by arnType func (sys *BucketTargetSys) ListTargets(ctx context.Context, bucket, arnType string) (targets []madmin.BucketTarget) { if bucket != "" { if ts, err := sys.ListBucketTargets(ctx, bucket); err == nil { for _, t := range ts.Targets { if string(t.Type) == arnType || arnType == "" { targets = append(targets, t.Clone()) } } } return targets } sys.RLock() defer sys.RUnlock() for _, tgts := range sys.targetsMap { for _, t := range tgts { if string(t.Type) == arnType || arnType == "" { targets = append(targets, t.Clone()) } } } return } // ListBucketTargets - gets list of bucket targets for this bucket. func (sys *BucketTargetSys) ListBucketTargets(ctx context.Context, bucket string) (*madmin.BucketTargets, error) { sys.RLock() defer sys.RUnlock() tgts, ok := sys.targetsMap[bucket] if ok { return &madmin.BucketTargets{Targets: tgts}, nil } return nil, BucketRemoteTargetNotFound{Bucket: bucket} } // Delete clears targets present for a bucket func (sys *BucketTargetSys) Delete(bucket string) { sys.Lock() defer sys.Unlock() tgts, ok := sys.targetsMap[bucket] if !ok { return } for _, t := range tgts { delete(sys.arnRemotesMap, t.Arn) } delete(sys.targetsMap, bucket) } // SetTarget - sets a new minio-go client target for this bucket. func (sys *BucketTargetSys) SetTarget(ctx context.Context, bucket string, tgt *madmin.BucketTarget, update bool) error { if globalIsGateway { return nil } if !tgt.Type.IsValid() && !update { return BucketRemoteArnTypeInvalid{Bucket: bucket} } clnt, err := sys.getRemoteTargetClient(tgt) if err != nil { return BucketRemoteTargetNotFound{Bucket: tgt.TargetBucket} } // validate if target credentials are ok if _, err = clnt.BucketExists(ctx, tgt.TargetBucket); err != nil { if minio.ToErrorResponse(err).Code == "NoSuchBucket" { return BucketRemoteTargetNotFound{Bucket: tgt.TargetBucket} } return RemoteTargetConnectionErr{Bucket: tgt.TargetBucket, Err: err} } if tgt.Type == madmin.ReplicationService { if !globalBucketVersioningSys.Enabled(bucket) { return BucketReplicationSourceNotVersioned{Bucket: bucket} } vcfg, err := clnt.GetBucketVersioning(ctx, tgt.TargetBucket) if err != nil { return RemoteTargetConnectionErr{Bucket: tgt.TargetBucket, Err: err} } if vcfg.Status != string(versioning.Enabled) { return BucketRemoteTargetNotVersioned{Bucket: tgt.TargetBucket} } } sys.Lock() defer sys.Unlock() tgts := sys.targetsMap[bucket] newtgts := make([]madmin.BucketTarget, len(tgts)) found := false for idx, t := range tgts { if t.Type == tgt.Type { if t.Arn == tgt.Arn { if !update { return BucketRemoteAlreadyExists{Bucket: t.TargetBucket} } newtgts[idx] = *tgt found = true continue } } newtgts[idx] = t } if !found && !update { newtgts = append(newtgts, *tgt) } sys.targetsMap[bucket] = newtgts sys.arnRemotesMap[tgt.Arn] = clnt sys.updateBandwidthLimit(bucket, tgt.BandwidthLimit) return nil } func (sys *BucketTargetSys) updateBandwidthLimit(bucket string, limit int64) { if globalIsGateway { return } if limit == 0 { globalBucketMonitor.DeleteBucket(bucket) return } // Setup bandwidth throttling globalBucketMonitor.SetBandwidthLimit(bucket, limit) } // RemoveTarget - removes a remote bucket target for this source bucket. func (sys *BucketTargetSys) RemoveTarget(ctx context.Context, bucket, arnStr string) error { if globalIsGateway { return nil } if arnStr == "" { return BucketRemoteArnInvalid{Bucket: bucket} } arn, err := madmin.ParseARN(arnStr) if err != nil { return BucketRemoteArnInvalid{Bucket: bucket} } if arn.Type == madmin.ReplicationService { // reject removal of remote target if replication configuration is present rcfg, err := getReplicationConfig(ctx, bucket) if err == nil { for _, tgtArn := range rcfg.FilterTargetArns(replication.ObjectOpts{OpType: replication.AllReplicationType}) { if err == nil && (tgtArn == arnStr || rcfg.RoleArn == arnStr) { sys.RLock() _, ok := sys.arnRemotesMap[arnStr] sys.RUnlock() if ok { return BucketRemoteRemoveDisallowed{Bucket: bucket} } } } } } // delete ARN type from list of matching targets sys.Lock() defer sys.Unlock() found := false tgts, ok := sys.targetsMap[bucket] if !ok { return BucketRemoteTargetNotFound{Bucket: bucket} } targets := make([]madmin.BucketTarget, 0, len(tgts)) for _, tgt := range tgts { if tgt.Arn != arnStr { targets = append(targets, tgt) continue } found = true } if !found { return BucketRemoteTargetNotFound{Bucket: bucket} } sys.targetsMap[bucket] = targets delete(sys.arnRemotesMap, arnStr) sys.updateBandwidthLimit(bucket, 0) return nil } // GetRemoteTargetClient returns minio-go client for replication target instance func (sys *BucketTargetSys) GetRemoteTargetClient(ctx context.Context, arn string) *TargetClient { sys.RLock() defer sys.RUnlock() return sys.arnRemotesMap[arn] } // GetRemoteBucketTargetByArn returns BucketTarget for a ARN func (sys *BucketTargetSys) GetRemoteBucketTargetByArn(ctx context.Context, bucket, arn string) madmin.BucketTarget { sys.RLock() defer sys.RUnlock() var tgt madmin.BucketTarget for _, t := range sys.targetsMap[bucket] { if t.Arn == arn { tgt = t.Clone() tgt.Credentials = t.Credentials return tgt } } return tgt } // NewBucketTargetSys - creates new replication system. func NewBucketTargetSys(ctx context.Context) *BucketTargetSys { sys := &BucketTargetSys{ arnRemotesMap: make(map[string]*TargetClient), targetsMap: make(map[string][]madmin.BucketTarget), hc: make(map[string]epHealth), hcClient: newHCClient(), } // reload healthcheck endpoints map periodically to remove stale endpoints from the map. go func() { rTimer := time.NewTimer(defaultHealthCheckReloadDuration) defer rTimer.Stop() for { select { case <-rTimer.C: sys.reloadHealthCheckers(ctx) rTimer.Reset(defaultHealthCheckReloadDuration) case <-ctx.Done(): return } } }() go sys.heartBeat(ctx) return sys } // UpdateAllTargets updates target to reflect metadata updates func (sys *BucketTargetSys) UpdateAllTargets(bucket string, tgts *madmin.BucketTargets) { if sys == nil { return } sys.Lock() defer sys.Unlock() // Remove existingtarget and arn association if tgts, ok := sys.targetsMap[bucket]; ok { for _, t := range tgts { delete(sys.arnRemotesMap, t.Arn) } delete(sys.targetsMap, bucket) } // No need for more if not adding anything if tgts == nil || tgts.Empty() { sys.updateBandwidthLimit(bucket, 0) return } if len(tgts.Targets) > 0 { sys.targetsMap[bucket] = tgts.Targets } for _, tgt := range tgts.Targets { tgtClient, err := sys.getRemoteTargetClient(&tgt) if err != nil { continue } sys.arnRemotesMap[tgt.Arn] = tgtClient sys.updateBandwidthLimit(bucket, tgt.BandwidthLimit) } sys.targetsMap[bucket] = tgts.Targets } // create minio-go clients for buckets having remote targets func (sys *BucketTargetSys) set(bucket BucketInfo, meta BucketMetadata) { cfg := meta.bucketTargetConfig if cfg == nil || cfg.Empty() { return } sys.Lock() defer sys.Unlock() if len(cfg.Targets) > 0 { sys.targetsMap[bucket.Name] = cfg.Targets } for _, tgt := range cfg.Targets { tgtClient, err := sys.getRemoteTargetClient(&tgt) if err != nil { logger.LogIf(GlobalContext, err) continue } sys.arnRemotesMap[tgt.Arn] = tgtClient sys.updateBandwidthLimit(bucket.Name, tgt.BandwidthLimit) } sys.targetsMap[bucket.Name] = cfg.Targets } // Returns a minio-go Client configured to access remote host described in replication target config. func (sys *BucketTargetSys) getRemoteTargetClient(tcfg *madmin.BucketTarget) (*TargetClient, error) { config := tcfg.Credentials creds := credentials.NewStaticV4(config.AccessKey, config.SecretKey, "") api, err := minio.New(tcfg.Endpoint, &miniogo.Options{ Creds: creds, Secure: tcfg.Secure, Region: tcfg.Region, Transport: globalRemoteTargetTransport, }) if err != nil { return nil, err } hcDuration := defaultHealthCheckDuration if tcfg.HealthCheckDuration >= 1 { // require minimum health check duration of 1 sec. hcDuration = tcfg.HealthCheckDuration } tc := &TargetClient{ Client: api, healthCheckDuration: hcDuration, replicateSync: tcfg.ReplicationSync, Bucket: tcfg.TargetBucket, StorageClass: tcfg.StorageClass, disableProxy: tcfg.DisableProxy, ARN: tcfg.Arn, ResetID: tcfg.ResetID, Endpoint: tcfg.Endpoint, Secure: tcfg.Secure, } return tc, nil } // getRemoteARN gets existing ARN for an endpoint or generates a new one. func (sys *BucketTargetSys) getRemoteARN(bucket string, target *madmin.BucketTarget) string { if target == nil { return "" } tgts := sys.targetsMap[bucket] for _, tgt := range tgts { if tgt.Type == target.Type && tgt.TargetBucket == target.TargetBucket && target.URL().String() == tgt.URL().String() { return tgt.Arn } } if !target.Type.IsValid() { return "" } return generateARN(target) } // generate ARN that is unique to this target type func generateARN(t *madmin.BucketTarget) string { arn := madmin.ARN{ Type: t.Type, ID: mustGetUUID(), Region: t.Region, Bucket: t.TargetBucket, } return arn.String() } // Returns parsed target config. If KMS is configured, remote target is decrypted func parseBucketTargetConfig(bucket string, cdata, cmetadata []byte) (*madmin.BucketTargets, error) { var ( data []byte err error t madmin.BucketTargets meta map[string]string ) if len(cdata) == 0 { return nil, nil } data = cdata json := jsoniter.ConfigCompatibleWithStandardLibrary if len(cmetadata) != 0 { if err := json.Unmarshal(cmetadata, &meta); err != nil { return nil, err } if crypto.S3.IsEncrypted(meta) { if data, err = decryptBucketMetadata(cdata, bucket, meta, kms.Context{ bucket: bucket, bucketTargetsFile: bucketTargetsFile, }); err != nil { return nil, err } } } if err = json.Unmarshal(data, &t); err != nil { return nil, err } return &t, nil } // TargetClient is the struct for remote target client. type TargetClient struct { *miniogo.Client healthCheckDuration time.Duration Bucket string // remote bucket target replicateSync bool StorageClass string // storage class on remote disableProxy bool ARN string // ARN to uniquely identify remote target ResetID string Endpoint string Secure bool }