2019-08-12 22:43:05 +01:00
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// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package pieces
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import (
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"context"
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"sync"
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"time"
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"go.uber.org/zap"
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"storj.io/storj/internal/sync2"
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"storj.io/storj/pkg/storj"
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"storj.io/storj/storage"
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)
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// CacheService updates the space used cache
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2019-09-10 14:24:16 +01:00
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//
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// architecture: Chore
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2019-08-12 22:43:05 +01:00
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type CacheService struct {
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log *zap.Logger
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usageCache *BlobsUsageCache
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store *Store
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loop sync2.Cycle
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}
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// NewService creates a new cache service that updates the space usage cache on startup and syncs the cache values to
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// persistent storage on an interval
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func NewService(log *zap.Logger, usageCache *BlobsUsageCache, pieces *Store, interval time.Duration) *CacheService {
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return &CacheService{
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log: log,
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usageCache: usageCache,
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store: pieces,
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loop: *sync2.NewCycle(interval),
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}
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}
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// Run recalculates the space used cache once and also runs a loop to sync the space used cache
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// to persistent storage on an interval
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func (service *CacheService) Run(ctx context.Context) (err error) {
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defer mon.Task()(&ctx)(&err)
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totalAtStart := service.usageCache.copyCacheTotals()
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// recalculate the cache once
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newTotal, newTotalBySatellite, err := service.store.SpaceUsedTotalAndBySatellite(ctx)
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if err != nil {
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service.log.Error("error getting current space used calculation: ", zap.Error(err))
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}
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if err = service.usageCache.Recalculate(ctx, newTotal,
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totalAtStart.totalSpaceUsed,
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newTotalBySatellite,
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totalAtStart.totalSpaceUsedBySatellite,
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); err != nil {
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service.log.Error("error during recalculating space usage cache: ", zap.Error(err))
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}
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if err = service.store.spaceUsedDB.Init(ctx); err != nil {
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service.log.Error("error during init space usage db: ", zap.Error(err))
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}
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return service.loop.Run(ctx, func(ctx context.Context) (err error) {
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defer mon.Task()(&ctx)(&err)
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// on a loop sync the cache values to the db so that we have the them saved
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// in the case that the storagenode restarts
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if err := service.PersistCacheTotals(ctx); err != nil {
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service.log.Error("error persisting cache totals to the database: ", zap.Error(err))
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}
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return err
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})
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}
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// PersistCacheTotals saves the current totals of the space used cache to the database
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// so that if the storagenode restarts it can retrieve the latest space used
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// values without needing to recalculate since that could take a long time
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func (service *CacheService) PersistCacheTotals(ctx context.Context) error {
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cache := service.usageCache
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2019-09-12 17:42:39 +01:00
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cache.mu.Lock()
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defer cache.mu.Unlock()
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2019-08-12 22:43:05 +01:00
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if err := service.store.spaceUsedDB.UpdateTotal(ctx, cache.totalSpaceUsed); err != nil {
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return err
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}
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if err := service.store.spaceUsedDB.UpdateTotalsForAllSatellites(ctx, cache.totalSpaceUsedBySatellite); err != nil {
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return err
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}
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return nil
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}
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// Init initializes the space used cache with the most recent values that were stored persistently
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func (service *CacheService) Init(ctx context.Context) (err error) {
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total, err := service.store.spaceUsedDB.GetTotal(ctx)
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if err != nil {
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service.log.Error("CacheServiceInit error during initializing space usage cache GetTotal:", zap.Error(err))
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return err
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}
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totalBySatellite, err := service.store.spaceUsedDB.GetTotalsForAllSatellites(ctx)
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if err != nil {
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service.log.Error("CacheServiceInit error during initializing space usage cache GetTotalsForAllSatellites:", zap.Error(err))
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return err
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}
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service.usageCache.init(total, totalBySatellite)
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return nil
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}
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// Close closes the loop
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func (service *CacheService) Close() (err error) {
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service.loop.Close()
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return nil
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}
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// BlobsUsageCache is a blob storage with a cache for storing
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// totals of current space used
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2019-09-10 14:24:16 +01:00
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//
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// architecture: Database
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2019-08-12 22:43:05 +01:00
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type BlobsUsageCache struct {
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storage.Blobs
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mu sync.Mutex
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totalSpaceUsed int64
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totalSpaceUsedBySatellite map[storj.NodeID]int64
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}
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// NewBlobsUsageCache creates a new disk blob store with a space used cache
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func NewBlobsUsageCache(blob storage.Blobs) *BlobsUsageCache {
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return &BlobsUsageCache{
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Blobs: blob,
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totalSpaceUsedBySatellite: map[storj.NodeID]int64{},
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}
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}
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// NewBlobsUsageCacheTest creates a new disk blob store with a space used cache
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func NewBlobsUsageCacheTest(blob storage.Blobs, total int64, totalSpaceUsedBySatellite map[storj.NodeID]int64) *BlobsUsageCache {
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return &BlobsUsageCache{
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Blobs: blob,
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totalSpaceUsed: total,
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totalSpaceUsedBySatellite: totalSpaceUsedBySatellite,
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}
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}
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func (blobs *BlobsUsageCache) init(total int64, totalBySatellite map[storj.NodeID]int64) {
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blobs.mu.Lock()
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defer blobs.mu.Unlock()
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blobs.totalSpaceUsed = total
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blobs.totalSpaceUsedBySatellite = totalBySatellite
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}
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// SpaceUsedBySatellite returns the current total space used for a specific
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// satellite for all pieces (not including header bytes)
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func (blobs *BlobsUsageCache) SpaceUsedBySatellite(ctx context.Context, satelliteID storj.NodeID) (int64, error) {
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blobs.mu.Lock()
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defer blobs.mu.Unlock()
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return blobs.totalSpaceUsedBySatellite[satelliteID], nil
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}
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// SpaceUsedForPieces returns the current total used space for
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//// all pieces content (not including header bytes)
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func (blobs *BlobsUsageCache) SpaceUsedForPieces(ctx context.Context) (int64, error) {
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blobs.mu.Lock()
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defer blobs.mu.Unlock()
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return blobs.totalSpaceUsed, nil
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}
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// Delete gets the size of the piece that is going to be deleted then deletes it and
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// updates the space used cache accordingly
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func (blobs *BlobsUsageCache) Delete(ctx context.Context, blobRef storage.BlobRef) error {
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blobInfo, err := blobs.Stat(ctx, blobRef)
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if err != nil {
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return err
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}
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pieceAccess, err := newStoredPieceAccess(nil, blobInfo)
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if err != nil {
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return err
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}
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pieceContentSize, err := pieceAccess.ContentSize(ctx)
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if err != nil {
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return Error.Wrap(err)
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}
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if err := blobs.Blobs.Delete(ctx, blobRef); err != nil {
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return Error.Wrap(err)
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}
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satelliteID := storj.NodeID{}
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copy(satelliteID[:], blobRef.Namespace)
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blobs.Update(ctx, satelliteID, -pieceContentSize)
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return nil
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}
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// Update updates the cache totals with the piece content size
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func (blobs *BlobsUsageCache) Update(ctx context.Context, satelliteID storj.NodeID, pieceContentSize int64) {
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blobs.mu.Lock()
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defer blobs.mu.Unlock()
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blobs.totalSpaceUsed += pieceContentSize
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blobs.totalSpaceUsedBySatellite[satelliteID] += pieceContentSize
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}
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func (blobs *BlobsUsageCache) copyCacheTotals() BlobsUsageCache {
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blobs.mu.Lock()
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defer blobs.mu.Unlock()
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2019-08-12 22:43:05 +01:00
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var copyMap = map[storj.NodeID]int64{}
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for k, v := range blobs.totalSpaceUsedBySatellite {
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copyMap[k] = v
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}
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return BlobsUsageCache{
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totalSpaceUsed: blobs.totalSpaceUsed,
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totalSpaceUsedBySatellite: copyMap,
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}
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}
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// Recalculate estimates new totals for the space used cache. In order to get new totals for the
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// space used cache, we had to iterate over all the pieces on disk. Since that can potentially take
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// a long time, here we need to check if we missed any additions/deletions while we were iterating and
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// estimate how many bytes missed then add those to the space used result of iteration.
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func (blobs *BlobsUsageCache) Recalculate(ctx context.Context, newTotal, totalAtIterationStart int64, newTotalBySatellite, totalBySatelliteAtIterationStart map[storj.NodeID]int64) error {
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totalsAtIterationEnd := blobs.copyCacheTotals()
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estimatedTotals := estimate(newTotal,
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totalAtIterationStart,
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totalsAtIterationEnd.totalSpaceUsed,
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)
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var estimatedTotalsBySatellite = map[storj.NodeID]int64{}
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for ID, newTotal := range newTotalBySatellite {
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estimatedNewTotal := estimate(newTotal,
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totalBySatelliteAtIterationStart[ID],
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totalsAtIterationEnd.totalSpaceUsedBySatellite[ID],
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)
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// if the estimatedNewTotal is zero then there is no data stored
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// for this satelliteID so don't add it to the cache
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if estimatedNewTotal == 0 {
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continue
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}
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estimatedTotalsBySatellite[ID] = estimatedNewTotal
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}
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// find any saIDs that are in totalsAtIterationEnd but not in newTotalSpaceUsedBySatellite
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missedWhenIterationEnded := getMissed(totalsAtIterationEnd.totalSpaceUsedBySatellite,
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newTotalBySatellite,
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)
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if len(missedWhenIterationEnded) > 0 {
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for ID := range missedWhenIterationEnded {
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estimatedNewTotal := estimate(0,
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totalBySatelliteAtIterationStart[ID],
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totalsAtIterationEnd.totalSpaceUsedBySatellite[ID],
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)
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if estimatedNewTotal == 0 {
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continue
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}
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estimatedTotalsBySatellite[ID] = estimatedNewTotal
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}
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}
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blobs.mu.Lock()
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blobs.totalSpaceUsed = estimatedTotals
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blobs.totalSpaceUsedBySatellite = estimatedTotalsBySatellite
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blobs.mu.Unlock()
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return nil
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}
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func estimate(newSpaceUsedTotal, totalAtIterationStart, totalAtIterationEnd int64) int64 {
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if newSpaceUsedTotal == totalAtIterationEnd {
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return newSpaceUsedTotal
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}
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// If we missed writes/deletes while iterating, we will assume that half of those missed occurred before
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// the iteration and half occurred after. So here we add half of the delta to the result space used totals
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// from the iteration to account for those missed.
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spaceUsedDeltaDuringIteration := totalAtIterationEnd - totalAtIterationStart
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estimatedTotal := newSpaceUsedTotal + (spaceUsedDeltaDuringIteration / 2)
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if estimatedTotal < 0 {
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return 0
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}
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return estimatedTotal
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}
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func getMissed(endTotals, newTotals map[storj.NodeID]int64) map[storj.NodeID]int64 {
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var missed = map[storj.NodeID]int64{}
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for id, total := range endTotals {
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if _, ok := newTotals[id]; !ok {
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missed[id] = total
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}
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}
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return missed
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}
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// Close satisfies the pieces interface
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func (blobs *BlobsUsageCache) Close() error {
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return nil
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}
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// TestCreateV0 creates a new V0 blob that can be written. This is only appropriate in test situations.
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func (blobs *BlobsUsageCache) TestCreateV0(ctx context.Context, ref storage.BlobRef) (_ storage.BlobWriter, err error) {
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fStore := blobs.Blobs.(interface {
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TestCreateV0(ctx context.Context, ref storage.BlobRef) (_ storage.BlobWriter, err error)
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})
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return fStore.TestCreateV0(ctx, ref)
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}
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