b160ec4c1b
In the situation where the flushes take longer than the incoming rate of writes, the RollupsWriteCache will take every connection in the database pool and use them forever. Instead of doing that and taking down satellite availability, bound the number of flush operations that it will perform and drop incoming writes earlier to keep memory usage constant. Adds monitoring events for if any flushes or updates are lost. Change-Id: I81b169b73501ee9b999f4b03d1e79645fc56f167
242 lines
6.7 KiB
Go
242 lines
6.7 KiB
Go
// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package orders
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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/common/pb"
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"storj.io/common/sync2"
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"storj.io/common/uuid"
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)
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// CacheData stores the amount of inline and allocated data
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// for a bucket bandwidth rollup.
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type CacheData struct {
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Inline int64
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Allocated int64
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Settled int64
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}
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// CacheKey is the key information for the cached map below.
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type CacheKey struct {
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ProjectID uuid.UUID
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BucketName string
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Action pb.PieceAction
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}
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// RollupData contains the pending rollups waiting to be flushed to the db.
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type RollupData map[CacheKey]CacheData
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// RollupsWriteCache stores information needed to update bucket bandwidth rollups.
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type RollupsWriteCache struct {
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DB
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batchSize int
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wg sync.WaitGroup
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log *zap.Logger
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mu sync.Mutex
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pendingRollups RollupData
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latestTime time.Time
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stopped bool
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flushing bool
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nextFlushCompletion *sync2.Fence
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}
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// NewRollupsWriteCache creates an RollupsWriteCache.
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func NewRollupsWriteCache(log *zap.Logger, db DB, batchSize int) *RollupsWriteCache {
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return &RollupsWriteCache{
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DB: db,
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batchSize: batchSize,
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log: log,
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pendingRollups: make(RollupData),
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nextFlushCompletion: new(sync2.Fence),
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}
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}
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// UpdateBucketBandwidthAllocation updates the rollups cache adding allocated data for a bucket bandwidth rollup.
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func (cache *RollupsWriteCache) UpdateBucketBandwidthAllocation(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error {
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return cache.updateCacheValue(ctx, projectID, bucketName, action, amount, 0, 0, intervalStart.UTC())
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}
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// UpdateBucketBandwidthInline updates the rollups cache adding inline data for a bucket bandwidth rollup.
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func (cache *RollupsWriteCache) UpdateBucketBandwidthInline(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error {
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return cache.updateCacheValue(ctx, projectID, bucketName, action, 0, amount, 0, intervalStart.UTC())
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}
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// UpdateBucketBandwidthSettle updates the rollups cache adding settled data for a bucket bandwidth rollup.
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func (cache *RollupsWriteCache) UpdateBucketBandwidthSettle(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error {
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return cache.updateCacheValue(ctx, projectID, bucketName, action, 0, 0, amount, intervalStart.UTC())
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}
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// resetCache should only be called after you have acquired the cache lock. It
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// will reset the various cache values and return the pendingRollups,
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// latestTime, and currentSize.
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func (cache *RollupsWriteCache) resetCache() (RollupData, time.Time) {
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pendingRollups := cache.pendingRollups
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cache.pendingRollups = make(RollupData)
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latestTime := cache.latestTime
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cache.latestTime = time.Time{}
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return pendingRollups, latestTime
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}
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// Flush resets cache then flushes the everything in the rollups write cache to the database.
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func (cache *RollupsWriteCache) Flush(ctx context.Context) {
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defer mon.Task()(&ctx)(nil)
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cache.mu.Lock()
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// while we're already flushing, wait for it to complete.
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for cache.flushing {
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done := cache.nextFlushCompletion.Done()
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cache.mu.Unlock()
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select {
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case <-done:
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case <-ctx.Done():
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return
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}
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cache.mu.Lock()
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}
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cache.flushing = true
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pendingRollups, latestTime := cache.resetCache()
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cache.mu.Unlock()
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cache.flush(ctx, pendingRollups, latestTime)
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}
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// CloseAndFlush flushes anything in the cache and marks the cache as stopped.
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func (cache *RollupsWriteCache) CloseAndFlush(ctx context.Context) error {
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cache.mu.Lock()
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cache.stopped = true
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cache.mu.Unlock()
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cache.wg.Wait()
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cache.Flush(ctx)
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return nil
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}
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// flush flushes the everything in the rollups write cache to the database.
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func (cache *RollupsWriteCache) flush(ctx context.Context, pendingRollups RollupData, latestTime time.Time) {
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defer mon.Task()(&ctx)(nil)
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if len(pendingRollups) > 0 {
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rollups := make([]BucketBandwidthRollup, 0, len(pendingRollups))
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for cacheKey, cacheData := range pendingRollups {
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rollups = append(rollups, BucketBandwidthRollup{
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ProjectID: cacheKey.ProjectID,
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BucketName: cacheKey.BucketName,
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Action: cacheKey.Action,
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Inline: cacheData.Inline,
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Allocated: cacheData.Allocated,
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Settled: cacheData.Settled,
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})
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}
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err := cache.DB.UpdateBucketBandwidthBatch(ctx, latestTime, rollups)
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if err != nil {
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mon.Event("rollups_write_cache_flush_lost")
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cache.log.Error("MONEY LOST! Bucket bandwidth rollup batch flush failed.", zap.Error(err))
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}
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}
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cache.mu.Lock()
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defer cache.mu.Unlock()
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cache.nextFlushCompletion.Release()
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cache.nextFlushCompletion = new(sync2.Fence)
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cache.flushing = false
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}
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func (cache *RollupsWriteCache) updateCacheValue(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, allocated, inline, settled int64, intervalStart time.Time) error {
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defer mon.Task()(&ctx)(nil)
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cache.mu.Lock()
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defer cache.mu.Unlock()
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if cache.stopped {
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return Error.New("RollupsWriteCache is stopped")
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}
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key := CacheKey{
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ProjectID: projectID,
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BucketName: string(bucketName),
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Action: action,
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}
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// pevent unbounded memory memory growth if we're not flushing fast enough
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// to keep up with incoming writes.
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data, ok := cache.pendingRollups[key]
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if !ok && len(cache.pendingRollups) >= cache.batchSize {
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mon.Event("rollups_write_cache_update_lost")
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cache.log.Error("MONEY LOST! Flushing too slow to keep up with demand.")
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} else {
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if cache.latestTime.IsZero() || intervalStart.After(cache.latestTime) {
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cache.latestTime = intervalStart
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}
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data.Allocated += allocated
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data.Inline += inline
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data.Settled += settled
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cache.pendingRollups[key] = data
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}
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if len(cache.pendingRollups) < cache.batchSize {
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return nil
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}
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if !cache.flushing {
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cache.flushing = true
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pendingRollups, latestTime := cache.resetCache()
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cache.wg.Add(1)
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go func() {
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defer cache.wg.Done()
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cache.flush(ctx, pendingRollups, latestTime)
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}()
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}
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return nil
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}
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// OnNextFlush waits until the next time a flush call is made, then closes
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// the returned channel.
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func (cache *RollupsWriteCache) OnNextFlush() <-chan struct{} {
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cache.mu.Lock()
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defer cache.mu.Unlock()
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return cache.nextFlushCompletion.Done()
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}
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// CurrentSize returns the current size of the cache.
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func (cache *RollupsWriteCache) CurrentSize() int {
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cache.mu.Lock()
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defer cache.mu.Unlock()
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return len(cache.pendingRollups)
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}
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// CurrentData returns the contents of the cache.
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func (cache *RollupsWriteCache) CurrentData() RollupData {
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cache.mu.Lock()
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defer cache.mu.Unlock()
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copyCache := RollupData{}
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for k, v := range cache.pendingRollups {
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copyCache[k] = v
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}
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return copyCache
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}
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