/* * MinIO Cloud Storage, (C) 2016-2020 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" "sort" "sync" "time" "github.com/minio/minio/cmd/logger" "github.com/minio/minio/pkg/bpool" "github.com/minio/minio/pkg/color" "github.com/minio/minio/pkg/dsync" "github.com/minio/minio/pkg/madmin" "github.com/minio/minio/pkg/sync/errgroup" ) // OfflineDisk represents an unavailable disk. var OfflineDisk StorageAPI // zero value is nil // partialOperation is a successful upload/delete of an object // but not written in all disks (having quorum) type partialOperation struct { bucket string object string versionID string failedSet int } // erasureObjects - Implements ER object layer. type erasureObjects struct { GatewayUnsupported // getDisks returns list of storageAPIs. getDisks func() []StorageAPI // getLockers returns list of remote and local lockers. getLockers func() []dsync.NetLocker // getEndpoints returns list of endpoint strings belonging this set. // some may be local and some remote. getEndpoints func() []string // Locker mutex map. nsMutex *nsLockMap // Byte pools used for temporary i/o buffers. bp *bpool.BytePoolCap mrfOpCh chan partialOperation } // NewNSLock - initialize a new namespace RWLocker instance. func (er erasureObjects) NewNSLock(ctx context.Context, bucket string, objects ...string) RWLocker { return er.nsMutex.NewNSLock(ctx, er.getLockers, bucket, objects...) } // Shutdown function for object storage interface. func (er erasureObjects) Shutdown(ctx context.Context) error { // Add any object layer shutdown activities here. closeStorageDisks(er.getDisks()) return nil } // byDiskTotal is a collection satisfying sort.Interface. type byDiskTotal []DiskInfo func (d byDiskTotal) Len() int { return len(d) } func (d byDiskTotal) Swap(i, j int) { d[i], d[j] = d[j], d[i] } func (d byDiskTotal) Less(i, j int) bool { return d[i].Total < d[j].Total } // getDisksInfo - fetch disks info across all other storage API. func getDisksInfo(disks []StorageAPI, endpoints []string) (disksInfo []DiskInfo, errs []error, onlineDisks, offlineDisks madmin.BackendDisks) { disksInfo = make([]DiskInfo, len(disks)) onlineDisks = make(madmin.BackendDisks) offlineDisks = make(madmin.BackendDisks) for _, ep := range endpoints { if _, ok := offlineDisks[ep]; !ok { offlineDisks[ep] = 0 } if _, ok := onlineDisks[ep]; !ok { onlineDisks[ep] = 0 } } g := errgroup.WithNErrs(len(disks)) for index := range disks { index := index g.Go(func() error { if disks[index] == OfflineDisk { // Storage disk is empty, perhaps ignored disk or not available. return errDiskNotFound } info, err := disks[index].DiskInfo() if err != nil { if !IsErr(err, baseErrs...) { reqInfo := (&logger.ReqInfo{}).AppendTags("disk", disks[index].String()) ctx := logger.SetReqInfo(GlobalContext, reqInfo) logger.LogIf(ctx, err) } return err } disksInfo[index] = info return nil }, index) } errs = g.Wait() // Wait for the routines. for i, diskInfoErr := range errs { ep := endpoints[i] if diskInfoErr != nil { offlineDisks[ep]++ continue } onlineDisks[ep]++ } // Success. return disksInfo, errs, onlineDisks, offlineDisks } // Get an aggregated storage info across all disks. func getStorageInfo(disks []StorageAPI, endpoints []string) (StorageInfo, []error) { disksInfo, errs, onlineDisks, offlineDisks := getDisksInfo(disks, endpoints) // Sort so that the first element is the smallest. sort.Sort(byDiskTotal(disksInfo)) // Combine all disks to get total usage usedList := make([]uint64, len(disksInfo)) totalList := make([]uint64, len(disksInfo)) availableList := make([]uint64, len(disksInfo)) mountPaths := make([]string, len(disksInfo)) for i, di := range disksInfo { usedList[i] = di.Used totalList[i] = di.Total availableList[i] = di.Free mountPaths[i] = di.MountPath } storageInfo := StorageInfo{ Used: usedList, Total: totalList, Available: availableList, MountPaths: mountPaths, } storageInfo.Backend.Type = BackendErasure storageInfo.Backend.OnlineDisks = onlineDisks storageInfo.Backend.OfflineDisks = offlineDisks return storageInfo, errs } // StorageInfo - returns underlying storage statistics. func (er erasureObjects) StorageInfo(ctx context.Context, local bool) (StorageInfo, []error) { disks := er.getDisks() endpoints := er.getEndpoints() if local { var localDisks []StorageAPI var localEndpoints []string for i, disk := range disks { if disk != nil { if disk.IsLocal() { // Append this local disk since local flag is true localDisks = append(localDisks, disk) localEndpoints = append(localEndpoints, endpoints[i]) } } } disks = localDisks endpoints = localEndpoints } return getStorageInfo(disks, endpoints) } // GetMetrics - is not implemented and shouldn't be called. func (er erasureObjects) GetMetrics(ctx context.Context) (*Metrics, error) { logger.LogIf(ctx, NotImplemented{}) return &Metrics{}, NotImplemented{} } // CrawlAndGetDataUsage collects usage from all buckets. // updates are sent as different parts of the underlying // structure has been traversed. func (er erasureObjects) CrawlAndGetDataUsage(ctx context.Context, bf *bloomFilter, updates chan<- DataUsageInfo) error { return NotImplemented{API: "CrawlAndGetDataUsage"} } // CrawlAndGetDataUsage will start crawling buckets and send updated totals as they are traversed. // Updates are sent on a regular basis and the caller *must* consume them. func (er erasureObjects) crawlAndGetDataUsage(ctx context.Context, buckets []BucketInfo, bf *bloomFilter, updates chan<- dataUsageCache) error { var disks []StorageAPI for _, d := range er.getLoadBalancedDisks() { if d == nil || !d.IsOnline() { continue } disks = append(disks, d) } if len(disks) == 0 || len(buckets) == 0 { return nil } // Load bucket totals oldCache := dataUsageCache{} err := oldCache.load(ctx, er, dataUsageCacheName) if err != nil { return err } // New cache.. cache := dataUsageCache{ Info: dataUsageCacheInfo{ Name: dataUsageRoot, NextCycle: oldCache.Info.NextCycle, }, Cache: make(map[string]dataUsageEntry, len(oldCache.Cache)), } bloom := bf.bytes() // Put all buckets into channel. bucketCh := make(chan BucketInfo, len(buckets)) // Add new buckets first for _, b := range buckets { if oldCache.find(b.Name) == nil { bucketCh <- b } } // Add existing buckets if changes or lifecycles. for _, b := range buckets { e := oldCache.find(b.Name) if e != nil { cache.replace(b.Name, dataUsageRoot, *e) lc, err := globalLifecycleSys.Get(b.Name) activeLC := err == nil && lc.HasActiveRules("", true) if activeLC || bf == nil || bf.containsDir(b.Name) { bucketCh <- b } else { if intDataUpdateTracker.debug { logger.Info(color.Green("crawlAndGetDataUsage:")+" Skipping bucket %v, not updated", b.Name) } } } } close(bucketCh) bucketResults := make(chan dataUsageEntryInfo, len(disks)) // Start async collector/saver. // This goroutine owns the cache. var saverWg sync.WaitGroup saverWg.Add(1) go func() { const updateTime = 30 * time.Second t := time.NewTicker(updateTime) defer t.Stop() defer saverWg.Done() var lastSave time.Time saveLoop: for { select { case <-ctx.Done(): // Return without saving. return case <-t.C: if cache.Info.LastUpdate.Equal(lastSave) { continue } logger.LogIf(ctx, cache.save(ctx, er, dataUsageCacheName)) updates <- cache.clone() lastSave = cache.Info.LastUpdate case v, ok := <-bucketResults: if !ok { break saveLoop } cache.replace(v.Name, v.Parent, v.Entry) cache.Info.LastUpdate = time.Now() } } // Save final state... cache.Info.NextCycle++ cache.Info.LastUpdate = time.Now() logger.LogIf(ctx, cache.save(ctx, er, dataUsageCacheName)) updates <- cache }() // Start one crawler per disk var wg sync.WaitGroup wg.Add(len(disks)) for i := range disks { go func(i int) { defer wg.Done() disk := disks[i] for bucket := range bucketCh { select { case <-ctx.Done(): return default: } // Load cache for bucket cacheName := pathJoin(bucket.Name, dataUsageCacheName) cache := dataUsageCache{} logger.LogIf(ctx, cache.load(ctx, er, cacheName)) if cache.Info.Name == "" { cache.Info.Name = bucket.Name } cache.Info.BloomFilter = bloom if cache.Info.Name != bucket.Name { logger.LogIf(ctx, fmt.Errorf("cache name mismatch: %s != %s", cache.Info.Name, bucket.Name)) cache.Info = dataUsageCacheInfo{ Name: bucket.Name, LastUpdate: time.Time{}, NextCycle: 0, } } // Calc usage before := cache.Info.LastUpdate cache, err = disk.CrawlAndGetDataUsage(ctx, cache) cache.Info.BloomFilter = nil if err != nil { logger.LogIf(ctx, err) if cache.Info.LastUpdate.After(before) { logger.LogIf(ctx, cache.save(ctx, er, cacheName)) } continue } var root dataUsageEntry if r := cache.root(); r != nil { root = cache.flatten(*r) } bucketResults <- dataUsageEntryInfo{ Name: cache.Info.Name, Parent: dataUsageRoot, Entry: root, } // Save cache logger.LogIf(ctx, cache.save(ctx, er, cacheName)) } }(i) } wg.Wait() close(bucketResults) saverWg.Wait() return nil } // IsReady - shouldn't be called will panic. func (er erasureObjects) IsReady(ctx context.Context) bool { logger.CriticalIf(ctx, NotImplemented{}) return true }