forked from TrueCloudLab/frostfs-node
[#947] writecache: refactor object persisting
a1696a8
introduced some logic which in some situations prevented big objects
to be persisted in FSTree. In this commit a refactoring is done with the
goal of simplifying the code and also checking #866 issue.
1. Split a monstrous function into multiple simple ones: memory objects
can only be small and for writing through the cache we can do a dispatch
in `Put` itself.
2. Determine objects to be put in database before the actual update
as setting up a transaction has non-zero overhead.
Signed-off-by: Evgenii Stratonikov <evgeniy@nspcc.ru>
This commit is contained in:
parent
088c894f44
commit
1462824ab8
5 changed files with 56 additions and 114 deletions
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@ -45,7 +45,6 @@ func (c *cache) Delete(addr *objectSDK.Address) error {
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if err != nil {
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if err != nil {
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return err
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return err
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}
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}
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c.dbSize.Sub(uint64(has))
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storagelog.Write(c.log, storagelog.AddressField(saddr), storagelog.OpField("db DELETE"))
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storagelog.Write(c.log, storagelog.AddressField(saddr), storagelog.OpField("db DELETE"))
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c.objCounters.DecDB()
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c.objCounters.DecDB()
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return nil
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return nil
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@ -26,7 +26,7 @@ func (c *cache) persistLoop() {
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sort.Slice(m, func(i, j int) bool { return m[i].addr < m[j].addr })
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sort.Slice(m, func(i, j int) bool { return m[i].addr < m[j].addr })
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start := time.Now()
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start := time.Now()
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c.persistObjects(m)
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c.persistSmallObjects(m)
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c.log.Debug("persisted items to disk",
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c.log.Debug("persisted items to disk",
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zap.Duration("took", time.Since(start)),
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zap.Duration("took", time.Since(start)),
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zap.Int("total", len(m)))
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zap.Int("total", len(m)))
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@ -52,130 +52,73 @@ func (c *cache) persistLoop() {
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}
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}
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}
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}
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func (c *cache) persistToCache(objs []objectInfo) []int {
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// persistSmallObjects persists small objects to the write-cache database and
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var (
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// pushes the to the flush workers queue.
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failMem []int // some index is negative => all objects starting from it will overflow the cache
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func (c *cache) persistSmallObjects(objs []objectInfo) {
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doneMem []int
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cacheSize := c.estimateCacheSize()
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)
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overflowIndex := len(objs)
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var sz uint64
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for i := range objs {
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newSize := c.incSizeDB(cacheSize)
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if c.maxCacheSize < newSize {
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overflowIndex = i
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break
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}
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cacheSize = newSize
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}
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err := c.db.Update(func(tx *bbolt.Tx) error {
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err := c.db.Update(func(tx *bbolt.Tx) error {
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b := tx.Bucket(defaultBucket)
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b := tx.Bucket(defaultBucket)
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cacheSz := c.estimateCacheSize()
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for i := 0; i < overflowIndex; i++ {
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for i := range objs {
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if uint64(len(objs[i].data)) >= c.smallObjectSize {
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failMem = append(failMem, i)
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continue
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}
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// check if object will overflow write-cache size limit
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updCacheSz := c.incSizeDB(cacheSz)
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if updCacheSz > c.maxCacheSize {
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// set negative index. We decrement index to cover 0 val (overflow is practically impossible)
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failMem = append(failMem, -i-1)
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return nil
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}
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err := b.Put([]byte(objs[i].addr), objs[i].data)
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err := b.Put([]byte(objs[i].addr), objs[i].data)
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if err != nil {
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if err != nil {
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return err
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return err
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}
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}
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sz += uint64(len(objs[i].data))
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doneMem = append(doneMem, i)
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storagelog.Write(c.log, storagelog.AddressField(objs[i].addr), storagelog.OpField("db PUT"))
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// update cache size
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cacheSz = updCacheSz
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c.objCounters.IncDB()
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}
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}
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return nil
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return nil
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})
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})
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if err == nil {
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if err != nil {
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c.dbSize.Add(sz)
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overflowIndex = 0
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}
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} else {
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if len(doneMem) > 0 {
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c.evictObjects(overflowIndex)
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c.evictObjects(len(doneMem))
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for _, i := range doneMem {
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c.flushed.Add(objs[i].addr, true)
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}
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}
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}
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var failDisk []int
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for i := 0; i < overflowIndex; i++ {
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storagelog.Write(c.log, storagelog.AddressField(objs[i].addr), storagelog.OpField("db PUT"))
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cacheSz := c.estimateCacheSize()
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c.objCounters.IncDB()
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c.flushed.Add(objs[i].addr, true)
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for _, objInd := range failMem {
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var (
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updCacheSz uint64
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overflowInd = -1
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)
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if objInd < 0 {
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// actually, since the overflow was detected in DB tx, the required space could well have been freed,
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// but it is easier to consider the entire method atomic
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overflowInd = -objInd - 1 // subtract 1 since we decremented index above
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} else {
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// check if object will overflow write-cache size limit
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if updCacheSz = c.incSizeFS(cacheSz); updCacheSz > c.maxCacheSize {
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overflowInd = objInd
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}
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}
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if overflowInd >= 0 {
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loop:
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for j := range objs[overflowInd:] {
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// exclude objects which are already stored in DB
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for _, doneMemInd := range doneMem {
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if j == doneMemInd {
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continue loop
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}
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}
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failDisk = append(failDisk, j)
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}
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break
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}
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if uint64(len(objs[objInd].data)) > c.maxObjectSize {
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failDisk = append(failDisk, objInd)
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continue
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}
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err := c.fsTree.Put(objs[objInd].obj.Address(), objs[objInd].data)
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if err != nil {
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failDisk = append(failDisk, objInd)
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} else {
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storagelog.Write(c.log, storagelog.AddressField(objs[objInd].addr), storagelog.OpField("fstree PUT"))
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// update cache size
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cacheSz = updCacheSz
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c.objCounters.IncFS()
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}
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}
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}
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return failDisk
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c.addToFlushQueue(objs, overflowIndex)
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}
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}
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// persistObjects tries to write objects from memory to the persistent storage.
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// persistBigObject writes object to FSTree and pushes it to the flush workers queue.
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// If tryCache is false, writing skips cache and is done directly to the main storage.
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func (c *cache) persistBigObject(objInfo objectInfo) {
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func (c *cache) persistObjects(objs []objectInfo) {
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cacheSz := c.estimateCacheSize()
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toDisk := c.persistToCache(objs)
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metaIndex := 0
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j := 0
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if c.incSizeFS(cacheSz) <= c.maxCacheSize {
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err := c.fsTree.Put(objInfo.obj.Address(), objInfo.data)
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for i := range objs {
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if err == nil {
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ch := c.metaCh
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metaIndex = 1
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if j < len(toDisk) {
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c.objCounters.IncFS()
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if i == toDisk[j] {
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storagelog.Write(c.log, storagelog.AddressField(objInfo.addr), storagelog.OpField("fstree PUT"))
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ch = c.directCh
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} else {
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for ; j < len(toDisk) && i > toDisk[j]; j++ {
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}
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}
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}
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}
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}
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c.addToFlushQueue([]objectInfo{objInfo}, metaIndex)
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}
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// addToFlushQueue pushes objects to the flush workers queue.
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// For objects below metaIndex only meta information will be flushed.
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func (c *cache) addToFlushQueue(objs []objectInfo, metaIndex int) {
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for i := 0; i < metaIndex; i++ {
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select {
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select {
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case ch <- objs[j].obj:
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case c.metaCh <- objs[i].obj:
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case <-c.closeCh:
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return
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}
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}
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for i := metaIndex; i < len(objs); i++ {
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select {
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case c.directCh <- objs[i].obj:
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case <-c.closeCh:
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case <-c.closeCh:
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return
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return
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}
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}
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@ -30,7 +30,7 @@ func (c *cache) Put(o *object.Object) error {
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c.mtx.Lock()
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c.mtx.Lock()
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if sz < c.smallObjectSize && c.curMemSize+sz <= c.maxMemSize {
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if sz <= c.smallObjectSize && c.curMemSize+sz <= c.maxMemSize {
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c.curMemSize += sz
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c.curMemSize += sz
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c.mem = append(c.mem, oi)
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c.mem = append(c.mem, oi)
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@ -43,6 +43,10 @@ func (c *cache) Put(o *object.Object) error {
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c.mtx.Unlock()
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c.mtx.Unlock()
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c.persistObjects([]objectInfo{oi})
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if sz <= c.smallObjectSize {
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c.persistSmallObjects([]objectInfo{oi})
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} else {
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c.persistBigObject(oi)
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}
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return nil
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return nil
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}
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}
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@ -117,7 +117,6 @@ func (c *cache) deleteFromDB(keys [][]byte) error {
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if err != nil {
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if err != nil {
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return err
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return err
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}
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}
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c.dbSize.Sub(sz)
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c.objCounters.DecDB()
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c.objCounters.DecDB()
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return nil
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return nil
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}
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}
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@ -6,7 +6,6 @@ import (
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objectSDK "github.com/nspcc-dev/neofs-api-go/pkg/object"
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objectSDK "github.com/nspcc-dev/neofs-api-go/pkg/object"
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"github.com/nspcc-dev/neofs-node/pkg/core/object"
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"github.com/nspcc-dev/neofs-node/pkg/core/object"
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"github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobstor/fstree"
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"github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobstor/fstree"
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"go.uber.org/atomic"
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"go.uber.org/zap"
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"go.uber.org/zap"
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)
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)
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@ -44,8 +43,6 @@ type cache struct {
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evictCh chan []byte
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evictCh chan []byte
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// store contains underlying database.
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// store contains underlying database.
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store
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store
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// dbSize stores approximate database size. It is updated every flush/persist cycle.
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dbSize atomic.Uint64
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// fsTree contains big files stored directly on file-system.
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// fsTree contains big files stored directly on file-system.
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fsTree *fstree.FSTree
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fsTree *fstree.FSTree
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}
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}
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