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package mergeset
import (
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"encoding/json"
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"errors"
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"fmt"
"os"
"path/filepath"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
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"unsafe"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/memory"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/syncwg"
)
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// maxInmemoryParts is the maximum number of inmemory parts in the table.
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//
// This number may be reached when the insertion pace outreaches merger pace.
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// If this number is reached, then assisted merges are performed
// during data ingestion.
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const maxInmemoryParts = 30
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// maxFileParts is the maximum number of file parts in the table.
//
// This number may be reached when the insertion pace outreaches merger pace.
// If this number is reached, then assisted merges are performed
// during data ingestion.
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const maxFileParts = 64
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// Default number of parts to merge at once.
//
// This number has been obtained empirically - it gives the lowest possible overhead.
// See appendPartsToMerge tests for details.
const defaultPartsToMerge = 15
// The final number of parts to merge at once.
//
// It must be smaller than defaultPartsToMerge.
// Lower value improves select performance at the cost of increased
// write amplification.
const finalPartsToMerge = 2
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// maxPartSize is the maximum part size in bytes.
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//
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// This number should be limited by the amount of time required to merge parts of this summary size.
// The required time shouldn't exceed a day.
const maxPartSize = 400e9
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// The interval for flushing buffered data to parts, so it becomes visible to search.
const pendingItemsFlushInterval = time . Second
// The interval for guaranteed flush of recently ingested data from memory to on-disk parts,
// so they survive process crash.
var dataFlushInterval = 5 * time . Second
// SetDataFlushInterval sets the interval for guaranteed flush of recently ingested data from memory to disk.
//
// The data can be flushed from memory to disk more frequently if it doesn't fit the memory limit.
//
// This function must be called before initializing the indexdb.
func SetDataFlushInterval ( d time . Duration ) {
if d > pendingItemsFlushInterval {
dataFlushInterval = d
}
}
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// maxItemsPerCachedPart is the maximum items per created part by the merge,
// which must be cached in the OS page cache.
//
// Such parts are usually frequently accessed, so it is good to cache their
// contents in OS page cache.
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func maxItemsPerCachedPart ( ) uint64 {
mem := memory . Remaining ( )
// Production data shows that each item occupies ~4 bytes in the compressed part.
// It is expected no more than defaultPartsToMerge/2 parts exist
// in the OS page cache before they are merged into bigger part.
// Halft of the remaining RAM must be left for lib/storage parts,
// so the maxItems is calculated using the below code:
maxItems := uint64 ( mem ) / ( 4 * defaultPartsToMerge )
if maxItems < 1e6 {
maxItems = 1e6
}
return maxItems
}
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// Table represents mergeset table.
type Table struct {
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// Atomically updated counters must go first in the struct, so they are properly
// aligned to 8 bytes on 32-bit architectures.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/212
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activeInmemoryMerges uint64
activeFileMerges uint64
inmemoryMergesCount uint64
fileMergesCount uint64
inmemoryItemsMerged uint64
fileItemsMerged uint64
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inmemoryAssistedMerges uint64
fileAssistedMerges uint64
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itemsAdded uint64
itemsAddedSizeBytes uint64
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mergeIdx uint64
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path string
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flushCallback func ( )
flushCallbackWorkerWG sync . WaitGroup
needFlushCallbackCall uint32
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prepareBlock PrepareBlockCallback
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isReadOnly * uint32
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// rawItems contains recently added items that haven't been converted to parts yet.
//
// rawItems aren't used in search for performance reasons
rawItems rawItemsShards
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// partsLock protects inmemoryParts and fileParts.
partsLock sync . Mutex
// inmemoryParts contains inmemory parts.
inmemoryParts [ ] * partWrapper
// fileParts contains file-backed parts.
fileParts [ ] * partWrapper
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// This channel is used for signaling the background mergers that there are parts,
// which may need to be merged.
needMergeCh chan struct { }
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stopCh chan struct { }
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wg sync . WaitGroup
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// Use syncwg instead of sync, since Add/Wait may be called from concurrent goroutines.
rawItemsPendingFlushesWG syncwg . WaitGroup
}
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type rawItemsShards struct {
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shardIdx uint32
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// shards reduce lock contention when adding rows on multi-CPU systems.
shards [ ] rawItemsShard
}
// The number of shards for rawItems per table.
//
// Higher number of shards reduces CPU contention and increases the max bandwidth on multi-core systems.
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var rawItemsShardsPerTable = func ( ) int {
cpus := cgroup . AvailableCPUs ( )
multiplier := cpus
if multiplier > 16 {
multiplier = 16
}
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return ( cpus * multiplier + 1 ) / 2
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} ( )
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const maxBlocksPerShard = 256
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func ( riss * rawItemsShards ) init ( ) {
riss . shards = make ( [ ] rawItemsShard , rawItemsShardsPerTable )
}
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func ( riss * rawItemsShards ) addItems ( tb * Table , items [ ] [ ] byte ) {
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shards := riss . shards
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shardsLen := uint32 ( len ( shards ) )
for len ( items ) > 0 {
n := atomic . AddUint32 ( & riss . shardIdx , 1 )
idx := n % shardsLen
items = shards [ idx ] . addItems ( tb , items )
}
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}
func ( riss * rawItemsShards ) Len ( ) int {
n := 0
for i := range riss . shards {
n += riss . shards [ i ] . Len ( )
}
return n
}
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type rawItemsShardNopad struct {
// Put lastFlushTime to the top in order to avoid unaligned memory access on 32-bit architectures
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lastFlushTime uint64
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mu sync . Mutex
ibs [ ] * inmemoryBlock
}
type rawItemsShard struct {
rawItemsShardNopad
// The padding prevents false sharing on widespread platforms with
// 128 mod (cache line size) = 0 .
_ [ 128 - unsafe . Sizeof ( rawItemsShardNopad { } ) % 128 ] byte
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}
func ( ris * rawItemsShard ) Len ( ) int {
ris . mu . Lock ( )
n := 0
for _ , ib := range ris . ibs {
n += len ( ib . items )
}
ris . mu . Unlock ( )
return n
}
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func ( ris * rawItemsShard ) addItems ( tb * Table , items [ ] [ ] byte ) [ ] [ ] byte {
var ibsToFlush [ ] * inmemoryBlock
var tailItems [ ] [ ] byte
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ris . mu . Lock ( )
ibs := ris . ibs
if len ( ibs ) == 0 {
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ib := getInmemoryBlock ( )
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ibs = append ( ibs , ib )
ris . ibs = ibs
}
ib := ibs [ len ( ibs ) - 1 ]
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for i , item := range items {
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if ib . Add ( item ) {
continue
}
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if len ( ibs ) >= maxBlocksPerShard {
ibsToFlush = ibs
ibs = make ( [ ] * inmemoryBlock , 0 , maxBlocksPerShard )
tailItems = items [ i : ]
atomic . StoreUint64 ( & ris . lastFlushTime , fasttime . UnixTimestamp ( ) )
break
}
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ib = getInmemoryBlock ( )
if ib . Add ( item ) {
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ibs = append ( ibs , ib )
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continue
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}
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putInmemoryBlock ( ib )
logger . Panicf ( "BUG: cannot insert too big item into an empty inmemoryBlock len(item)=%d; the caller should be responsible for avoiding too big items" , len ( item ) )
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}
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ris . ibs = ibs
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ris . mu . Unlock ( )
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tb . flushBlocksToParts ( ibsToFlush , false )
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if len ( ibsToFlush ) > 0 {
// Run assisted merges if needed.
flushConcurrencyCh <- struct { } { }
tb . assistedMergeForInmemoryParts ( )
tb . assistedMergeForFileParts ( )
<- flushConcurrencyCh
}
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return tailItems
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}
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type partWrapper struct {
p * part
mp * inmemoryPart
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refCount uint32
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// mustBeDeleted marks partWrapper for deletion.
// This field should be updated only after partWrapper
// was removed from the list of active parts.
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mustBeDeleted uint32
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isInMerge bool
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// The deadline when the in-memory part must be flushed to disk.
flushToDiskDeadline time . Time
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}
func ( pw * partWrapper ) incRef ( ) {
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atomic . AddUint32 ( & pw . refCount , 1 )
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}
func ( pw * partWrapper ) decRef ( ) {
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n := atomic . AddUint32 ( & pw . refCount , ^ uint32 ( 0 ) )
if int32 ( n ) < 0 {
logger . Panicf ( "BUG: pw.refCount must be bigger than 0; got %d" , int32 ( n ) )
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}
if n > 0 {
return
}
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deletePath := ""
if pw . mp == nil && atomic . LoadUint32 ( & pw . mustBeDeleted ) != 0 {
deletePath = pw . p . path
}
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if pw . mp != nil {
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// Do not return pw.mp to pool via putInmemoryPart(),
// since pw.mp size may be too big compared to other entries stored in the pool.
// This may result in increased memory usage because of high fragmentation.
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pw . mp = nil
}
pw . p . MustClose ( )
pw . p = nil
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if deletePath != "" {
fs . MustRemoveAll ( deletePath )
}
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}
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// MustOpenTable opens a table on the given path.
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//
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// Optional flushCallback is called every time new data batch is flushed
// to the underlying storage and becomes visible to search.
//
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// Optional prepareBlock is called during merge before flushing the prepared block
// to persistent storage.
//
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// The table is created if it doesn't exist yet.
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func MustOpenTable ( path string , flushCallback func ( ) , prepareBlock PrepareBlockCallback , isReadOnly * uint32 ) * Table {
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path = filepath . Clean ( path )
// Create a directory for the table if it doesn't exist yet.
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fs . MustMkdirIfNotExist ( path )
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// Open table parts.
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pws := mustOpenParts ( path )
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tb := & Table {
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path : path ,
flushCallback : flushCallback ,
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prepareBlock : prepareBlock ,
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isReadOnly : isReadOnly ,
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fileParts : pws ,
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mergeIdx : uint64 ( time . Now ( ) . UnixNano ( ) ) ,
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needMergeCh : make ( chan struct { } , 1 ) ,
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stopCh : make ( chan struct { } ) ,
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}
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tb . rawItems . init ( )
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tb . startBackgroundWorkers ( )
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// Wake up a single background merger, so it could start merging parts if needed.
tb . notifyBackgroundMergers ( )
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if flushCallback != nil {
tb . flushCallbackWorkerWG . Add ( 1 )
go func ( ) {
// call flushCallback once per 10 seconds in order to improve the effectiveness of caches,
// which are reset by the flushCallback.
tc := time . NewTicker ( 10 * time . Second )
for {
select {
case <- tb . stopCh :
tb . flushCallback ( )
tb . flushCallbackWorkerWG . Done ( )
return
case <- tc . C :
if atomic . CompareAndSwapUint32 ( & tb . needFlushCallbackCall , 1 , 0 ) {
tb . flushCallback ( )
}
}
}
} ( )
}
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return tb
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}
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func ( tb * Table ) startBackgroundWorkers ( ) {
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tb . startMergeWorkers ( )
tb . startInmemoryPartsFlusher ( )
tb . startPendingItemsFlusher ( )
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}
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// MustClose closes the table.
func ( tb * Table ) MustClose ( ) {
close ( tb . stopCh )
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// Waiting for background workers to stop
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tb . wg . Wait ( )
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tb . flushInmemoryItems ( )
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tb . flushCallbackWorkerWG . Wait ( )
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// Remove references to parts from the tb, so they may be eventually closed after all the searches are done.
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tb . partsLock . Lock ( )
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inmemoryParts := tb . inmemoryParts
fileParts := tb . fileParts
tb . inmemoryParts = nil
tb . fileParts = nil
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tb . partsLock . Unlock ( )
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for _ , pw := range inmemoryParts {
pw . decRef ( )
}
for _ , pw := range fileParts {
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pw . decRef ( )
}
}
// Path returns the path to tb on the filesystem.
func ( tb * Table ) Path ( ) string {
return tb . path
}
// TableMetrics contains essential metrics for the Table.
type TableMetrics struct {
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ActiveInmemoryMerges uint64
ActiveFileMerges uint64
InmemoryMergesCount uint64
FileMergesCount uint64
InmemoryItemsMerged uint64
FileItemsMerged uint64
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InmemoryAssistedMerges uint64
FileAssistedMerges uint64
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ItemsAdded uint64
ItemsAddedSizeBytes uint64
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PendingItems uint64
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InmemoryPartsCount uint64
FilePartsCount uint64
InmemoryBlocksCount uint64
FileBlocksCount uint64
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InmemoryItemsCount uint64
FileItemsCount uint64
InmemorySizeBytes uint64
FileSizeBytes uint64
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DataBlocksCacheSize uint64
DataBlocksCacheSizeBytes uint64
DataBlocksCacheSizeMaxBytes uint64
DataBlocksCacheRequests uint64
DataBlocksCacheMisses uint64
IndexBlocksCacheSize uint64
IndexBlocksCacheSizeBytes uint64
IndexBlocksCacheSizeMaxBytes uint64
IndexBlocksCacheRequests uint64
IndexBlocksCacheMisses uint64
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PartsRefCount uint64
}
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// TotalItemsCount returns the total number of items in the table.
func ( tm * TableMetrics ) TotalItemsCount ( ) uint64 {
return tm . InmemoryItemsCount + tm . FileItemsCount
}
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// UpdateMetrics updates m with metrics from tb.
func ( tb * Table ) UpdateMetrics ( m * TableMetrics ) {
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m . ActiveInmemoryMerges += atomic . LoadUint64 ( & tb . activeInmemoryMerges )
m . ActiveFileMerges += atomic . LoadUint64 ( & tb . activeFileMerges )
m . InmemoryMergesCount += atomic . LoadUint64 ( & tb . inmemoryMergesCount )
m . FileMergesCount += atomic . LoadUint64 ( & tb . fileMergesCount )
m . InmemoryItemsMerged += atomic . LoadUint64 ( & tb . inmemoryItemsMerged )
m . FileItemsMerged += atomic . LoadUint64 ( & tb . fileItemsMerged )
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m . InmemoryAssistedMerges += atomic . LoadUint64 ( & tb . inmemoryAssistedMerges )
m . FileAssistedMerges += atomic . LoadUint64 ( & tb . fileAssistedMerges )
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m . ItemsAdded += atomic . LoadUint64 ( & tb . itemsAdded )
m . ItemsAddedSizeBytes += atomic . LoadUint64 ( & tb . itemsAddedSizeBytes )
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m . PendingItems += uint64 ( tb . rawItems . Len ( ) )
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tb . partsLock . Lock ( )
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m . InmemoryPartsCount += uint64 ( len ( tb . inmemoryParts ) )
for _ , pw := range tb . inmemoryParts {
p := pw . p
m . InmemoryBlocksCount += p . ph . blocksCount
m . InmemoryItemsCount += p . ph . itemsCount
m . InmemorySizeBytes += p . size
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m . PartsRefCount += uint64 ( atomic . LoadUint32 ( & pw . refCount ) )
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}
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m . FilePartsCount += uint64 ( len ( tb . fileParts ) )
for _ , pw := range tb . fileParts {
p := pw . p
m . FileBlocksCount += p . ph . blocksCount
m . FileItemsCount += p . ph . itemsCount
m . FileSizeBytes += p . size
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m . PartsRefCount += uint64 ( atomic . LoadUint32 ( & pw . refCount ) )
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}
tb . partsLock . Unlock ( )
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m . DataBlocksCacheSize = uint64 ( ibCache . Len ( ) )
m . DataBlocksCacheSizeBytes = uint64 ( ibCache . SizeBytes ( ) )
m . DataBlocksCacheSizeMaxBytes = uint64 ( ibCache . SizeMaxBytes ( ) )
m . DataBlocksCacheRequests = ibCache . Requests ( )
m . DataBlocksCacheMisses = ibCache . Misses ( )
m . IndexBlocksCacheSize = uint64 ( idxbCache . Len ( ) )
m . IndexBlocksCacheSizeBytes = uint64 ( idxbCache . SizeBytes ( ) )
m . IndexBlocksCacheSizeMaxBytes = uint64 ( idxbCache . SizeMaxBytes ( ) )
m . IndexBlocksCacheRequests = idxbCache . Requests ( )
m . IndexBlocksCacheMisses = idxbCache . Misses ( )
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}
// AddItems adds the given items to the tb.
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//
// The function panics when items contains an item with length exceeding maxInmemoryBlockSize.
// It is caller's responsibility to make sure there are no too long items.
func ( tb * Table ) AddItems ( items [ ] [ ] byte ) {
tb . rawItems . addItems ( tb , items )
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atomic . AddUint64 ( & tb . itemsAdded , uint64 ( len ( items ) ) )
n := 0
for _ , item := range items {
n += len ( item )
}
atomic . AddUint64 ( & tb . itemsAddedSizeBytes , uint64 ( n ) )
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}
// getParts appends parts snapshot to dst and returns it.
//
// The appended parts must be released with putParts.
func ( tb * Table ) getParts ( dst [ ] * partWrapper ) [ ] * partWrapper {
tb . partsLock . Lock ( )
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for _ , pw := range tb . inmemoryParts {
pw . incRef ( )
}
for _ , pw := range tb . fileParts {
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pw . incRef ( )
}
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dst = append ( dst , tb . inmemoryParts ... )
dst = append ( dst , tb . fileParts ... )
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tb . partsLock . Unlock ( )
return dst
}
// putParts releases the given pws obtained via getParts.
func ( tb * Table ) putParts ( pws [ ] * partWrapper ) {
for _ , pw := range pws {
pw . decRef ( )
}
}
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func ( tb * Table ) mergePartsOptimal ( pws [ ] * partWrapper ) error {
sortPartsForOptimalMerge ( pws )
for len ( pws ) > 0 {
n := defaultPartsToMerge
if n > len ( pws ) {
n = len ( pws )
}
pwsChunk := pws [ : n ]
pws = pws [ n : ]
err := tb . mergeParts ( pwsChunk , nil , true )
if err == nil {
continue
}
tb . releasePartsToMerge ( pws )
return fmt . Errorf ( "cannot optimally merge %d parts: %w" , n , err )
}
return nil
}
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// DebugFlush makes sure all the recently added data is visible to search.
2022-12-06 00:15:00 +01:00
//
2023-05-16 20:50:15 +02:00
// Note: this function doesn't store all the in-memory data to disk - it just converts
// recently added items to searchable parts, which can be stored either in memory
// (if they are quite small) or to persistent disk.
//
// This function is for debugging and testing purposes only,
// since it may slow down data ingestion when used frequently.
2022-12-06 00:15:00 +01:00
func ( tb * Table ) DebugFlush ( ) {
tb . flushPendingItems ( nil , true )
// Wait for background flushers to finish.
tb . rawItemsPendingFlushesWG . Wait ( )
}
func ( tb * Table ) startInmemoryPartsFlusher ( ) {
tb . wg . Add ( 1 )
go func ( ) {
tb . inmemoryPartsFlusher ( )
tb . wg . Done ( )
} ( )
}
func ( tb * Table ) startPendingItemsFlusher ( ) {
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tb . wg . Add ( 1 )
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go func ( ) {
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tb . pendingItemsFlusher ( )
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tb . wg . Done ( )
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} ( )
}
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func ( tb * Table ) inmemoryPartsFlusher ( ) {
ticker := time . NewTicker ( dataFlushInterval )
2020-02-13 11:55:58 +01:00
defer ticker . Stop ( )
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for {
select {
case <- tb . stopCh :
return
2020-02-13 11:55:58 +01:00
case <- ticker . C :
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tb . flushInmemoryParts ( false )
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}
}
}
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func ( tb * Table ) pendingItemsFlusher ( ) {
ticker := time . NewTicker ( pendingItemsFlushInterval )
defer ticker . Stop ( )
var ibs [ ] * inmemoryBlock
for {
select {
case <- tb . stopCh :
return
case <- ticker . C :
ibs = tb . flushPendingItems ( ibs [ : 0 ] , false )
for i := range ibs {
ibs [ i ] = nil
}
2019-05-22 23:16:55 +02:00
}
}
}
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func ( tb * Table ) flushPendingItems ( dst [ ] * inmemoryBlock , isFinal bool ) [ ] * inmemoryBlock {
return tb . rawItems . flush ( tb , dst , isFinal )
}
2019-05-22 23:16:55 +02:00
2022-12-06 00:15:00 +01:00
func ( tb * Table ) flushInmemoryItems ( ) {
tb . rawItems . flush ( tb , nil , true )
tb . flushInmemoryParts ( true )
2019-05-22 23:16:55 +02:00
}
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func ( tb * Table ) flushInmemoryParts ( isFinal bool ) {
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currentTime := time . Now ( )
var pws [ ] * partWrapper
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2023-03-19 08:10:24 +01:00
tb . partsLock . Lock ( )
for _ , pw := range tb . inmemoryParts {
if ! pw . isInMerge && ( isFinal || pw . flushToDiskDeadline . Before ( currentTime ) ) {
pw . isInMerge = true
pws = append ( pws , pw )
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}
2023-03-19 08:10:24 +01:00
}
tb . partsLock . Unlock ( )
if err := tb . mergePartsOptimal ( pws ) ; err != nil {
logger . Panicf ( "FATAL: cannot merge in-memory parts: %s" , err )
2022-12-06 00:15:00 +01:00
}
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}
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func ( riss * rawItemsShards ) flush ( tb * Table , dst [ ] * inmemoryBlock , isFinal bool ) [ ] * inmemoryBlock {
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tb . rawItemsPendingFlushesWG . Add ( 1 )
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for i := range riss . shards {
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dst = riss . shards [ i ] . appendBlocksToFlush ( dst , tb , isFinal )
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}
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tb . flushBlocksToParts ( dst , isFinal )
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tb . rawItemsPendingFlushesWG . Done ( )
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return dst
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}
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func ( ris * rawItemsShard ) appendBlocksToFlush ( dst [ ] * inmemoryBlock , tb * Table , isFinal bool ) [ ] * inmemoryBlock {
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currentTime := fasttime . UnixTimestamp ( )
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flushSeconds := int64 ( pendingItemsFlushInterval . Seconds ( ) )
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if flushSeconds <= 0 {
flushSeconds = 1
}
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lastFlushTime := atomic . LoadUint64 ( & ris . lastFlushTime )
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if ! isFinal && currentTime < lastFlushTime + uint64 ( flushSeconds ) {
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// Fast path - nothing to flush
return dst
2019-05-22 23:16:55 +02:00
}
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// Slow path - move ris.ibs to dst
ris . mu . Lock ( )
ibs := ris . ibs
dst = append ( dst , ibs ... )
for i := range ibs {
ibs [ i ] = nil
}
ris . ibs = ibs [ : 0 ]
atomic . StoreUint64 ( & ris . lastFlushTime , currentTime )
ris . mu . Unlock ( )
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return dst
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}
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func ( tb * Table ) flushBlocksToParts ( ibs [ ] * inmemoryBlock , isFinal bool ) {
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if len ( ibs ) == 0 {
return
}
var pwsLock sync . Mutex
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pws := make ( [ ] * partWrapper , 0 , ( len ( ibs ) + defaultPartsToMerge - 1 ) / defaultPartsToMerge )
wg := getWaitGroup ( )
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for len ( ibs ) > 0 {
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n := defaultPartsToMerge
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if n > len ( ibs ) {
n = len ( ibs )
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}
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wg . Add ( 1 )
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flushConcurrencyCh <- struct { } { }
go func ( ibsChunk [ ] * inmemoryBlock ) {
defer func ( ) {
<- flushConcurrencyCh
wg . Done ( )
} ( )
pw := tb . createInmemoryPart ( ibsChunk )
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if pw == nil {
return
}
pwsLock . Lock ( )
pws = append ( pws , pw )
pwsLock . Unlock ( )
} ( ibs [ : n ] )
ibs = ibs [ n : ]
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}
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wg . Wait ( )
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putWaitGroup ( wg )
tb . partsLock . Lock ( )
tb . inmemoryParts = append ( tb . inmemoryParts , pws ... )
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for range pws {
if ! tb . notifyBackgroundMergers ( ) {
break
}
}
2022-12-06 00:15:00 +01:00
tb . partsLock . Unlock ( )
if tb . flushCallback != nil {
if isFinal {
tb . flushCallback ( )
} else {
atomic . CompareAndSwapUint32 ( & tb . needFlushCallbackCall , 0 , 1 )
2019-08-29 13:39:05 +02:00
}
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}
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}
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func ( tb * Table ) notifyBackgroundMergers ( ) bool {
select {
case tb . needMergeCh <- struct { } { } :
return true
default :
return false
}
}
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var flushConcurrencyLimit = func ( ) int {
n := cgroup . AvailableCPUs ( )
if n < 2 {
// Allow at least 2 concurrent flushers on systems with a single CPU core
// in order to guarantee that in-memory data flushes and background merges can be continued
// when a single flusher is busy with the long merge.
n = 2
}
return n
} ( )
var flushConcurrencyCh = make ( chan struct { } , flushConcurrencyLimit )
2019-05-22 23:16:55 +02:00
2022-12-28 23:32:18 +01:00
func needAssistedMerge ( pws [ ] * partWrapper , maxParts int ) bool {
if len ( pws ) < maxParts {
return false
}
return getNotInMergePartsCount ( pws ) >= defaultPartsToMerge
}
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func ( tb * Table ) assistedMergeForInmemoryParts ( ) {
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for {
tb . partsLock . Lock ( )
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needMerge := needAssistedMerge ( tb . inmemoryParts , maxInmemoryParts )
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tb . partsLock . Unlock ( )
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if ! needMerge {
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return
}
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atomic . AddUint64 ( & tb . inmemoryAssistedMerges , 1 )
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err := tb . mergeInmemoryParts ( )
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if err == nil {
continue
}
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if errors . Is ( err , errNothingToMerge ) || errors . Is ( err , errForciblyStopped ) {
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return
}
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logger . Panicf ( "FATAL: cannot assist with merging inmemory parts: %s" , err )
}
}
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func ( tb * Table ) assistedMergeForFileParts ( ) {
for {
tb . partsLock . Lock ( )
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needMerge := needAssistedMerge ( tb . fileParts , maxFileParts )
2022-12-13 01:49:21 +01:00
tb . partsLock . Unlock ( )
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if ! needMerge {
2022-12-13 01:49:21 +01:00
return
}
atomic . AddUint64 ( & tb . fileAssistedMerges , 1 )
err := tb . mergeExistingParts ( false )
if err == nil {
continue
}
if errors . Is ( err , errNothingToMerge ) || errors . Is ( err , errForciblyStopped ) || errors . Is ( err , errReadOnlyMode ) {
return
}
logger . Panicf ( "FATAL: cannot assist with merging file parts: %s" , err )
}
}
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func getNotInMergePartsCount ( pws [ ] * partWrapper ) int {
n := 0
for _ , pw := range pws {
if ! pw . isInMerge {
n ++
}
2019-05-22 23:16:55 +02:00
}
2022-12-06 00:15:00 +01:00
return n
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}
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func getWaitGroup ( ) * sync . WaitGroup {
v := wgPool . Get ( )
if v == nil {
return & sync . WaitGroup { }
}
return v . ( * sync . WaitGroup )
}
func putWaitGroup ( wg * sync . WaitGroup ) {
wgPool . Put ( wg )
}
2022-07-27 22:47:18 +02:00
2022-12-06 00:15:00 +01:00
var wgPool sync . Pool
func ( tb * Table ) createInmemoryPart ( ibs [ ] * inmemoryBlock ) * partWrapper {
2022-12-04 07:45:53 +01:00
outItemsCount := uint64 ( 0 )
for _ , ib := range ibs {
outItemsCount += uint64 ( ib . Len ( ) )
}
2022-07-27 22:47:18 +02:00
// Prepare blockStreamReaders for source blocks.
bsrs := make ( [ ] * blockStreamReader , 0 , len ( ibs ) )
2021-06-17 12:42:32 +02:00
for _ , ib := range ibs {
2019-05-22 23:16:55 +02:00
if len ( ib . items ) == 0 {
continue
}
2022-07-27 22:47:18 +02:00
bsr := getBlockStreamReader ( )
2023-04-15 00:46:09 +02:00
bsr . MustInitFromInmemoryBlock ( ib )
2021-05-28 00:09:32 +02:00
putInmemoryBlock ( ib )
2022-07-27 22:47:18 +02:00
bsrs = append ( bsrs , bsr )
2020-02-13 13:06:51 +01:00
}
2022-07-27 22:47:18 +02:00
if len ( bsrs ) == 0 {
2020-02-13 13:06:51 +01:00
return nil
}
2022-12-06 00:15:00 +01:00
flushToDiskDeadline := time . Now ( ) . Add ( dataFlushInterval )
2022-07-27 22:47:18 +02:00
if len ( bsrs ) == 1 {
2020-02-13 13:06:51 +01:00
// Nothing to merge. Just return a single inmemory part.
2022-12-06 00:15:00 +01:00
bsr := bsrs [ 0 ]
2022-08-04 17:22:41 +02:00
mp := & inmemoryPart { }
2022-12-06 00:15:00 +01:00
mp . Init ( & bsr . Block )
putBlockStreamReader ( bsr )
return newPartWrapperFromInmemoryPart ( mp , flushToDiskDeadline )
2019-05-22 23:16:55 +02:00
}
// Prepare blockStreamWriter for destination part.
2022-12-04 07:45:53 +01:00
compressLevel := getCompressLevel ( outItemsCount )
2019-05-22 23:16:55 +02:00
bsw := getBlockStreamWriter ( )
2022-03-03 15:46:35 +01:00
mpDst := & inmemoryPart { }
2023-04-15 00:46:09 +02:00
bsw . MustInitFromInmemoryPart ( mpDst , compressLevel )
2019-05-22 23:16:55 +02:00
// Merge parts.
// The merge shouldn't be interrupted by stopCh,
// since it may be final after stopCh is closed.
2022-12-06 00:15:00 +01:00
atomic . AddUint64 ( & tb . activeInmemoryMerges , 1 )
err := mergeBlockStreams ( & mpDst . ph , bsw , bsrs , tb . prepareBlock , nil , & tb . inmemoryItemsMerged )
atomic . AddUint64 ( & tb . activeInmemoryMerges , ^ uint64 ( 0 ) )
atomic . AddUint64 ( & tb . inmemoryMergesCount , 1 )
2020-07-22 23:58:48 +02:00
if err != nil {
2019-05-22 23:16:55 +02:00
logger . Panicf ( "FATAL: cannot merge inmemoryBlocks: %s" , err )
}
putBlockStreamWriter ( bsw )
for _ , bsr := range bsrs {
putBlockStreamReader ( bsr )
}
2022-12-06 00:15:00 +01:00
return newPartWrapperFromInmemoryPart ( mpDst , flushToDiskDeadline )
}
2019-05-22 23:16:55 +02:00
2022-12-06 00:15:00 +01:00
func newPartWrapperFromInmemoryPart ( mp * inmemoryPart , flushToDiskDeadline time . Time ) * partWrapper {
p := mp . NewPart ( )
2019-05-22 23:16:55 +02:00
return & partWrapper {
2022-12-06 00:15:00 +01:00
p : p ,
mp : mp ,
refCount : 1 ,
flushToDiskDeadline : flushToDiskDeadline ,
2019-05-22 23:16:55 +02:00
}
}
2022-12-06 00:15:00 +01:00
func ( tb * Table ) startMergeWorkers ( ) {
2022-12-13 01:49:21 +01:00
// The actual number of concurrent merges is limited inside mergeWorker() below.
2023-04-14 08:36:06 +02:00
for i := 0 ; i < cap ( mergeWorkersLimitCh ) ; i ++ {
2022-12-04 08:03:05 +01:00
tb . wg . Add ( 1 )
2019-05-22 23:16:55 +02:00
go func ( ) {
2022-12-06 00:15:00 +01:00
tb . mergeWorker ( )
2022-12-04 08:03:05 +01:00
tb . wg . Done ( )
2019-05-22 23:16:55 +02:00
} ( )
}
}
2022-12-06 00:15:00 +01:00
func getMaxInmemoryPartSize ( ) uint64 {
// Allow up to 5% of memory for in-memory parts.
n := uint64 ( 0.05 * float64 ( memory . Allowed ( ) ) / maxInmemoryParts )
if n < 1e6 {
n = 1e6
}
return n
}
func ( tb * Table ) getMaxFilePartSize ( ) uint64 {
n := fs . MustGetFreeSpace ( tb . path )
// Divide free space by the max number of concurrent merges.
maxOutBytes := n / uint64 ( cap ( mergeWorkersLimitCh ) )
if maxOutBytes > maxPartSize {
maxOutBytes = maxPartSize
}
return maxOutBytes
}
2022-06-01 13:21:12 +02:00
func ( tb * Table ) canBackgroundMerge ( ) bool {
return atomic . LoadUint32 ( tb . isReadOnly ) == 0
}
2022-09-26 15:39:56 +02:00
var errReadOnlyMode = fmt . Errorf ( "storage is in readonly mode" )
2022-12-06 00:15:00 +01:00
func ( tb * Table ) mergeInmemoryParts ( ) error {
maxOutBytes := tb . getMaxFilePartSize ( )
tb . partsLock . Lock ( )
pws := getPartsToMerge ( tb . inmemoryParts , maxOutBytes , false )
tb . partsLock . Unlock ( )
return tb . mergeParts ( pws , tb . stopCh , false )
}
2019-09-19 20:48:14 +02:00
func ( tb * Table ) mergeExistingParts ( isFinal bool ) error {
2022-06-01 13:21:12 +02:00
if ! tb . canBackgroundMerge ( ) {
// Do not perform background merge in read-only mode
// in order to prevent from disk space shortage.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2603
2022-09-26 15:39:56 +02:00
return errReadOnlyMode
2022-06-01 13:21:12 +02:00
}
2022-12-06 00:15:00 +01:00
maxOutBytes := tb . getMaxFilePartSize ( )
2019-05-22 23:16:55 +02:00
tb . partsLock . Lock ( )
2022-12-06 00:15:00 +01:00
dst := make ( [ ] * partWrapper , 0 , len ( tb . inmemoryParts ) + len ( tb . fileParts ) )
dst = append ( dst , tb . inmemoryParts ... )
dst = append ( dst , tb . fileParts ... )
pws := getPartsToMerge ( dst , maxOutBytes , isFinal )
2019-05-22 23:16:55 +02:00
tb . partsLock . Unlock ( )
2022-12-06 00:15:00 +01:00
return tb . mergeParts ( pws , tb . stopCh , isFinal )
2019-05-22 23:16:55 +02:00
}
2022-12-06 00:15:00 +01:00
func ( tb * Table ) mergeWorker ( ) {
2020-05-14 21:01:51 +02:00
var lastMergeTime uint64
2019-05-22 23:16:55 +02:00
isFinal := false
for {
2022-12-13 01:49:21 +01:00
// Limit the number of concurrent calls to mergeExistingParts, since the total number of merge workers
// across tables may exceed the the cap(mergeWorkersLimitCh).
2022-12-06 00:15:00 +01:00
mergeWorkersLimitCh <- struct { } { }
2019-09-19 20:48:14 +02:00
err := tb . mergeExistingParts ( isFinal )
2022-12-06 00:15:00 +01:00
<- mergeWorkersLimitCh
2019-05-22 23:16:55 +02:00
if err == nil {
// Try merging additional parts.
2020-05-14 21:01:51 +02:00
lastMergeTime = fasttime . UnixTimestamp ( )
2019-05-22 23:16:55 +02:00
isFinal = false
continue
}
2020-09-17 02:02:35 +02:00
if errors . Is ( err , errForciblyStopped ) {
2019-05-22 23:16:55 +02:00
// The merger has been stopped.
2022-12-06 00:15:00 +01:00
return
2019-05-22 23:16:55 +02:00
}
2022-09-26 15:39:56 +02:00
if ! errors . Is ( err , errNothingToMerge ) && ! errors . Is ( err , errReadOnlyMode ) {
2022-12-06 00:15:00 +01:00
// Unexpected error.
logger . Panicf ( "FATAL: unrecoverable error when merging inmemory parts in %q: %s" , tb . path , err )
2019-05-22 23:16:55 +02:00
}
2022-12-06 00:15:00 +01:00
if finalMergeDelaySeconds > 0 && fasttime . UnixTimestamp ( ) - lastMergeTime > finalMergeDelaySeconds {
2019-05-22 23:16:55 +02:00
// We have free time for merging into bigger parts.
// This should improve select performance.
2020-05-14 21:01:51 +02:00
lastMergeTime = fasttime . UnixTimestamp ( )
2019-05-22 23:16:55 +02:00
isFinal = true
continue
}
2023-01-18 10:09:03 +01:00
// Nothing to merge. Wait for the notification of new merge.
2019-05-22 23:16:55 +02:00
select {
case <- tb . stopCh :
2022-12-06 00:15:00 +01:00
return
2023-01-18 10:09:03 +01:00
case <- tb . needMergeCh :
2019-05-22 23:16:55 +02:00
}
}
}
2022-12-06 00:15:00 +01:00
// Disable final merge by default, since it may lead to high disk IO and CPU usage
// after some inactivity time.
var finalMergeDelaySeconds = uint64 ( 0 )
// SetFinalMergeDelay sets the delay before doing final merge for Table without newly ingested data.
//
// This function may be called only before Table initialization.
func SetFinalMergeDelay ( delay time . Duration ) {
if delay <= 0 {
return
}
finalMergeDelaySeconds = uint64 ( delay . Seconds ( ) + 1 )
}
2019-05-22 23:16:55 +02:00
var errNothingToMerge = fmt . Errorf ( "nothing to merge" )
2022-12-01 04:53:02 +01:00
func ( tb * Table ) releasePartsToMerge ( pws [ ] * partWrapper ) {
tb . partsLock . Lock ( )
for _ , pw := range pws {
if ! pw . isInMerge {
logger . Panicf ( "BUG: missing isInMerge flag on the part %q" , pw . p . path )
}
pw . isInMerge = false
}
tb . partsLock . Unlock ( )
}
2022-12-06 00:15:00 +01:00
// mergeParts merges pws to a single resulting part.
2020-09-17 01:05:54 +02:00
//
// Merging is immediately stopped if stopCh is closed.
//
2022-12-06 00:15:00 +01:00
// If isFinal is set, then the resulting part will be stored to disk.
//
2020-09-17 01:05:54 +02:00
// All the parts inside pws must have isInMerge field set to true.
2022-12-06 00:15:00 +01:00
func ( tb * Table ) mergeParts ( pws [ ] * partWrapper , stopCh <- chan struct { } , isFinal bool ) error {
2019-05-22 23:16:55 +02:00
if len ( pws ) == 0 {
// Nothing to merge.
return errNothingToMerge
}
startTime := time . Now ( )
2022-12-06 00:15:00 +01:00
// Initialize destination paths.
dstPartType := getDstPartType ( pws , isFinal )
2023-03-19 09:36:05 +01:00
mergeIdx := tb . nextMergeIdx ( )
dstPartPath := ""
if dstPartType == partFile {
2023-03-25 21:39:38 +01:00
dstPartPath = filepath . Join ( tb . path , fmt . Sprintf ( "%016X" , mergeIdx ) )
2023-03-19 09:36:05 +01:00
}
2022-12-06 00:15:00 +01:00
if isFinal && len ( pws ) == 1 && pws [ 0 ] . mp != nil {
// Fast path: flush a single in-memory part to disk.
mp := pws [ 0 ] . mp
2023-04-14 07:11:56 +02:00
mp . MustStoreToDisk ( dstPartPath )
2023-03-19 09:36:05 +01:00
pwNew := tb . openCreatedPart ( pws , nil , dstPartPath )
2022-12-06 00:15:00 +01:00
tb . swapSrcWithDstParts ( pws , pwNew , dstPartType )
return nil
2019-05-22 23:16:55 +02:00
}
2022-12-06 00:15:00 +01:00
// Prepare BlockStreamReaders for source parts.
2023-04-15 00:46:09 +02:00
bsrs := mustOpenBlockStreamReaders ( pws )
2019-05-22 23:16:55 +02:00
2022-12-06 00:15:00 +01:00
// Prepare BlockStreamWriter for destination part.
srcSize := uint64 ( 0 )
srcItemsCount := uint64 ( 0 )
srcBlocksCount := uint64 ( 0 )
for _ , pw := range pws {
srcSize += pw . p . size
srcItemsCount += pw . p . ph . itemsCount
srcBlocksCount += pw . p . ph . blocksCount
}
compressLevel := getCompressLevel ( srcItemsCount )
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bsw := getBlockStreamWriter ( )
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var mpNew * inmemoryPart
if dstPartType == partInmemory {
mpNew = & inmemoryPart { }
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bsw . MustInitFromInmemoryPart ( mpNew , compressLevel )
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} else {
nocache := srcItemsCount > maxItemsPerCachedPart ( )
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bsw . MustInitFromFilePart ( dstPartPath , nocache , compressLevel )
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}
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// Merge source parts to destination part.
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ph , err := tb . mergePartsInternal ( dstPartPath , bsw , bsrs , dstPartType , stopCh )
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putBlockStreamWriter ( bsw )
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for _ , bsr := range bsrs {
putBlockStreamReader ( bsr )
}
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if err != nil {
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tb . releasePartsToMerge ( pws )
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return err
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}
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if mpNew != nil {
// Update partHeader for destination inmemory part after the merge.
mpNew . ph = * ph
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} else {
// Make sure the created part directory listing is synced.
fs . MustSyncPath ( dstPartPath )
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}
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// Atomically swap the source parts with the newly created part.
pwNew := tb . openCreatedPart ( pws , mpNew , dstPartPath )
pDst := pwNew . p
dstItemsCount := pDst . ph . itemsCount
dstBlocksCount := pDst . ph . blocksCount
dstSize := pDst . size
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tb . swapSrcWithDstParts ( pws , pwNew , dstPartType )
d := time . Since ( startTime )
if d <= 30 * time . Second {
return nil
}
// Log stats for long merges.
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durationSecs := d . Seconds ( )
itemsPerSec := int ( float64 ( srcItemsCount ) / durationSecs )
logger . Infof ( "merged (%d parts, %d items, %d blocks, %d bytes) into (1 part, %d items, %d blocks, %d bytes) in %.3f seconds at %d items/sec to %q" ,
len ( pws ) , srcItemsCount , srcBlocksCount , srcSize , dstItemsCount , dstBlocksCount , dstSize , durationSecs , itemsPerSec , dstPartPath )
return nil
}
func getFlushToDiskDeadline ( pws [ ] * partWrapper ) time . Time {
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d := time . Now ( ) . Add ( dataFlushInterval )
for _ , pw := range pws {
if pw . mp != nil && pw . flushToDiskDeadline . Before ( d ) {
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d = pw . flushToDiskDeadline
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}
}
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return d
}
type partType int
var (
partInmemory = partType ( 0 )
partFile = partType ( 1 )
)
func getDstPartType ( pws [ ] * partWrapper , isFinal bool ) partType {
dstPartSize := getPartsSize ( pws )
if isFinal || dstPartSize > getMaxInmemoryPartSize ( ) {
return partFile
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}
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if ! areAllInmemoryParts ( pws ) {
// If at least a single source part is located in file,
// then the destination part must be in file for durability reasons.
return partFile
}
return partInmemory
}
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func mustOpenBlockStreamReaders ( pws [ ] * partWrapper ) [ ] * blockStreamReader {
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bsrs := make ( [ ] * blockStreamReader , 0 , len ( pws ) )
for _ , pw := range pws {
bsr := getBlockStreamReader ( )
if pw . mp != nil {
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bsr . MustInitFromInmemoryPart ( pw . mp )
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} else {
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bsr . MustInitFromFilePart ( pw . p . path )
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}
bsrs = append ( bsrs , bsr )
}
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return bsrs
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}
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func ( tb * Table ) mergePartsInternal ( dstPartPath string , bsw * blockStreamWriter , bsrs [ ] * blockStreamReader , dstPartType partType , stopCh <- chan struct { } ) ( * partHeader , error ) {
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var ph partHeader
var itemsMerged * uint64
var mergesCount * uint64
var activeMerges * uint64
switch dstPartType {
case partInmemory :
itemsMerged = & tb . inmemoryItemsMerged
mergesCount = & tb . inmemoryMergesCount
activeMerges = & tb . activeInmemoryMerges
case partFile :
itemsMerged = & tb . fileItemsMerged
mergesCount = & tb . fileMergesCount
activeMerges = & tb . activeFileMerges
default :
logger . Panicf ( "BUG: unknown partType=%d" , dstPartType )
}
atomic . AddUint64 ( activeMerges , 1 )
err := mergeBlockStreams ( & ph , bsw , bsrs , tb . prepareBlock , stopCh , itemsMerged )
atomic . AddUint64 ( activeMerges , ^ uint64 ( 0 ) )
atomic . AddUint64 ( mergesCount , 1 )
if err != nil {
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return nil , fmt . Errorf ( "cannot merge %d parts to %s: %w" , len ( bsrs ) , dstPartPath , err )
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}
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if dstPartPath != "" {
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ph . MustWriteMetadata ( dstPartPath )
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}
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return & ph , nil
}
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func ( tb * Table ) openCreatedPart ( pws [ ] * partWrapper , mpNew * inmemoryPart , dstPartPath string ) * partWrapper {
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// Open the created part.
if mpNew != nil {
// Open the created part from memory.
flushToDiskDeadline := getFlushToDiskDeadline ( pws )
pwNew := newPartWrapperFromInmemoryPart ( mpNew , flushToDiskDeadline )
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return pwNew
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}
// Open the created part from disk.
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pNew := mustOpenFilePart ( dstPartPath )
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pwNew := & partWrapper {
p : pNew ,
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refCount : 1 ,
}
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return pwNew
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}
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func areAllInmemoryParts ( pws [ ] * partWrapper ) bool {
for _ , pw := range pws {
if pw . mp == nil {
return false
}
}
return true
}
func ( tb * Table ) swapSrcWithDstParts ( pws [ ] * partWrapper , pwNew * partWrapper , dstPartType partType ) {
// Atomically unregister old parts and add new part to tb.
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m := make ( map [ * partWrapper ] bool , len ( pws ) )
for _ , pw := range pws {
m [ pw ] = true
}
if len ( m ) != len ( pws ) {
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logger . Panicf ( "BUG: %d duplicate parts found when merging %d parts" , len ( pws ) - len ( m ) , len ( pws ) )
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}
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removedInmemoryParts := 0
removedFileParts := 0
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tb . partsLock . Lock ( )
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tb . inmemoryParts , removedInmemoryParts = removeParts ( tb . inmemoryParts , m )
tb . fileParts , removedFileParts = removeParts ( tb . fileParts , m )
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switch dstPartType {
case partInmemory :
tb . inmemoryParts = append ( tb . inmemoryParts , pwNew )
case partFile :
tb . fileParts = append ( tb . fileParts , pwNew )
default :
logger . Panicf ( "BUG: unknown partType=%d" , dstPartType )
}
tb . notifyBackgroundMergers ( )
// Atomically store the updated list of file-based parts on disk.
// This must be performed under partsLock in order to prevent from races
// when multiple concurrently running goroutines update the list.
if removedFileParts > 0 || dstPartType == partFile {
mustWritePartNames ( tb . fileParts , tb . path )
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}
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tb . partsLock . Unlock ( )
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removedParts := removedInmemoryParts + removedFileParts
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if removedParts != len ( m ) {
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logger . Panicf ( "BUG: unexpected number of parts removed; got %d, want %d" , removedParts , len ( m ) )
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}
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// Mark old parts as must be deleted and decrement reference count,
// so they are eventually closed and deleted.
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for _ , pw := range pws {
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atomic . StoreUint32 ( & pw . mustBeDeleted , 1 )
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pw . decRef ( )
}
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}
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func getPartsSize ( pws [ ] * partWrapper ) uint64 {
n := uint64 ( 0 )
for _ , pw := range pws {
n += pw . p . size
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}
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return n
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}
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func getCompressLevel ( itemsCount uint64 ) int {
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if itemsCount <= 1 << 16 {
// -5 is the minimum supported compression for zstd.
// See https://github.com/facebook/zstd/releases/tag/v1.3.4
return - 5
}
if itemsCount <= 1 << 17 {
return - 4
}
if itemsCount <= 1 << 18 {
return - 3
}
if itemsCount <= 1 << 19 {
return - 2
}
if itemsCount <= 1 << 20 {
return - 1
}
if itemsCount <= 1 << 22 {
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return 1
}
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if itemsCount <= 1 << 25 {
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return 2
}
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if itemsCount <= 1 << 28 {
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return 3
}
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return 4
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}
func ( tb * Table ) nextMergeIdx ( ) uint64 {
return atomic . AddUint64 ( & tb . mergeIdx , 1 )
}
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var mergeWorkersLimitCh = make ( chan struct { } , getWorkersCount ( ) )
func getWorkersCount ( ) int {
n := cgroup . AvailableCPUs ( )
if n < 4 {
// Allow at least 4 merge workers on systems with small CPUs count
// in order to guarantee that background merges can be continued
// when multiple workers are busy with big merges.
n = 4
}
return n
}
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func mustOpenParts ( path string ) [ ] * partWrapper {
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// The path can be missing after restoring from backup, so create it if needed.
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fs . MustMkdirIfNotExist ( path )
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fs . MustRemoveTemporaryDirs ( path )
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// Remove txn and tmp directories, which may be left after the upgrade
// to v1.90.0 and newer versions.
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fs . MustRemoveAll ( filepath . Join ( path , "txn" ) )
fs . MustRemoveAll ( filepath . Join ( path , "tmp" ) )
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partNames := mustReadPartNames ( path )
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// Remove dirs missing in partNames. These dirs may be left after unclean shutdown
// or after the update from versions prior to v1.90.0.
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des := fs . MustReadDir ( path )
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m := make ( map [ string ] struct { } , len ( partNames ) )
for _ , partName := range partNames {
m [ partName ] = struct { } { }
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}
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for _ , de := range des {
if ! fs . IsDirOrSymlink ( de ) {
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// Skip non-directories.
continue
}
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fn := de . Name ( )
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if _ , ok := m [ fn ] ; ! ok {
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deletePath := filepath . Join ( path , fn )
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fs . MustRemoveAll ( deletePath )
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}
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}
fs . MustSyncPath ( path )
// Open parts
var pws [ ] * partWrapper
for _ , partName := range partNames {
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partPath := filepath . Join ( path , partName )
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p := mustOpenFilePart ( partPath )
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pw := & partWrapper {
p : p ,
refCount : 1 ,
}
pws = append ( pws , pw )
}
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partNamesPath := filepath . Join ( path , partsFilename )
if ! fs . IsPathExist ( partNamesPath ) {
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// Create parts.json file if it doesn't exist yet.
// This should protect from possible carshloops just after the migration from versions below v1.90.0
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/4336
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mustWritePartNames ( pws , path )
}
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return pws
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}
// CreateSnapshotAt creates tb snapshot in the given dstDir.
//
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// Snapshot is created using linux hard links, so it is usually created very quickly.
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//
// If deadline is reached before snapshot is created error is returned.
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//
// The caller is responsible for data removal at dstDir on unsuccessful snapshot creation.
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func ( tb * Table ) CreateSnapshotAt ( dstDir string , deadline uint64 ) error {
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logger . Infof ( "creating Table snapshot of %q..." , tb . path )
startTime := time . Now ( )
var err error
srcDir := tb . path
srcDir , err = filepath . Abs ( srcDir )
if err != nil {
2020-06-30 21:58:18 +02:00
return fmt . Errorf ( "cannot obtain absolute dir for %q: %w" , srcDir , err )
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}
dstDir , err = filepath . Abs ( dstDir )
if err != nil {
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return fmt . Errorf ( "cannot obtain absolute dir for %q: %w" , dstDir , err )
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}
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if strings . HasPrefix ( dstDir , srcDir + string ( filepath . Separator ) ) {
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return fmt . Errorf ( "cannot create snapshot %q inside the data dir %q" , dstDir , srcDir )
}
// Flush inmemory items to disk.
2022-12-06 00:15:00 +01:00
tb . flushInmemoryItems ( )
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fs . MustMkdirFailIfExist ( dstDir )
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pws := tb . getParts ( nil )
defer tb . putParts ( pws )
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// Create a file with part names at dstDir
mustWritePartNames ( pws , dstDir )
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// Make hardlinks for pws at dstDir
for _ , pw := range pws {
if pw . mp != nil {
// Skip in-memory parts
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continue
}
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if deadline > 0 && fasttime . UnixTimestamp ( ) > deadline {
return fmt . Errorf ( "cannot create snapshot for %q: timeout exceeded" , tb . path )
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}
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srcPartPath := pw . p . path
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dstPartPath := filepath . Join ( dstDir , filepath . Base ( srcPartPath ) )
2023-04-14 07:48:05 +02:00
fs . MustHardLinkFiles ( srcPartPath , dstPartPath )
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}
2019-06-11 22:13:04 +02:00
fs . MustSyncPath ( dstDir )
2019-05-22 23:16:55 +02:00
parentDir := filepath . Dir ( dstDir )
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fs . MustSyncPath ( parentDir )
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2020-01-22 17:27:44 +01:00
logger . Infof ( "created Table snapshot of %q at %q in %.3f seconds" , srcDir , dstDir , time . Since ( startTime ) . Seconds ( ) )
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return nil
}
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func mustWritePartNames ( pws [ ] * partWrapper , dstDir string ) {
partNames := make ( [ ] string , 0 , len ( pws ) )
for _ , pw := range pws {
if pw . mp != nil {
// Skip in-memory parts
2019-08-12 13:44:24 +02:00
continue
}
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partName := filepath . Base ( pw . p . path )
partNames = append ( partNames , partName )
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}
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sort . Strings ( partNames )
data , err := json . Marshal ( partNames )
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if err != nil {
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logger . Panicf ( "BUG: cannot marshal partNames to JSON: %s" , err )
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}
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partNamesPath := filepath . Join ( dstDir , partsFilename )
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fs . MustWriteAtomic ( partNamesPath , data , true )
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}
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func mustReadPartNames ( srcDir string ) [ ] string {
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partNamesPath := filepath . Join ( srcDir , partsFilename )
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if fs . IsPathExist ( partNamesPath ) {
data , err := os . ReadFile ( partNamesPath )
if err != nil {
logger . Panicf ( "FATAL: cannot read %s file: %s" , partsFilename , err )
}
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var partNames [ ] string
if err := json . Unmarshal ( data , & partNames ) ; err != nil {
logger . Panicf ( "FATAL: cannot parse %s: %s" , partNamesPath , err )
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}
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return partNames
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}
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// The partsFilename is missing. This is the upgrade from versions previous to v1.90.0.
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// Read part names from directories under srcDir
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des := fs . MustReadDir ( srcDir )
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var partNames [ ] string
for _ , de := range des {
if ! fs . IsDirOrSymlink ( de ) {
// Skip non-directories.
continue
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}
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partName := de . Name ( )
if isSpecialDir ( partName ) {
// Skip special dirs.
continue
2019-12-02 20:34:35 +01:00
}
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partNames = append ( partNames , partName )
2019-05-22 23:16:55 +02:00
}
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return partNames
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}
// getPartsToMerge returns optimal parts to merge from pws.
//
// if isFinal is set, then merge harder.
//
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// The summary size of the returned parts must be smaller than the maxOutBytes.
func getPartsToMerge ( pws [ ] * partWrapper , maxOutBytes uint64 , isFinal bool ) [ ] * partWrapper {
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pwsRemaining := make ( [ ] * partWrapper , 0 , len ( pws ) )
for _ , pw := range pws {
if ! pw . isInMerge {
pwsRemaining = append ( pwsRemaining , pw )
}
}
maxPartsToMerge := defaultPartsToMerge
var dst [ ] * partWrapper
if isFinal {
for len ( dst ) == 0 && maxPartsToMerge >= finalPartsToMerge {
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dst = appendPartsToMerge ( dst [ : 0 ] , pwsRemaining , maxPartsToMerge , maxOutBytes )
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maxPartsToMerge --
}
} else {
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dst = appendPartsToMerge ( dst [ : 0 ] , pwsRemaining , maxPartsToMerge , maxOutBytes )
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}
for _ , pw := range dst {
if pw . isInMerge {
logger . Panicf ( "BUG: partWrapper.isInMerge is already set" )
}
pw . isInMerge = true
}
return dst
}
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// minMergeMultiplier is the minimum multiplier for the size of the output part
// compared to the size of the maximum input part for the merge.
//
// Higher value reduces write amplification (disk write IO induced by the merge),
// while increases the number of unmerged parts.
// The 1.7 is good enough for production workloads.
const minMergeMultiplier = 1.7
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// appendPartsToMerge finds optimal parts to merge from src, appends
// them to dst and returns the result.
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func appendPartsToMerge ( dst , src [ ] * partWrapper , maxPartsToMerge int , maxOutBytes uint64 ) [ ] * partWrapper {
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if len ( src ) < 2 {
// There is no need in merging zero or one part :)
return dst
}
if maxPartsToMerge < 2 {
logger . Panicf ( "BUG: maxPartsToMerge cannot be smaller than 2; got %d" , maxPartsToMerge )
}
// Filter out too big parts.
// This should reduce N for O(n^2) algorithm below.
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maxInPartBytes := uint64 ( float64 ( maxOutBytes ) / minMergeMultiplier )
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tmp := make ( [ ] * partWrapper , 0 , len ( src ) )
for _ , pw := range src {
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if pw . p . size > maxInPartBytes {
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continue
}
tmp = append ( tmp , pw )
}
src = tmp
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sortPartsForOptimalMerge ( src )
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maxSrcParts := maxPartsToMerge
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if maxSrcParts > len ( src ) {
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maxSrcParts = len ( src )
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}
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minSrcParts := ( maxSrcParts + 1 ) / 2
if minSrcParts < 2 {
minSrcParts = 2
}
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// Exhaustive search for parts giving the lowest write amplification when merged.
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var pws [ ] * partWrapper
maxM := float64 ( 0 )
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for i := minSrcParts ; i <= maxSrcParts ; i ++ {
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for j := 0 ; j <= len ( src ) - i ; j ++ {
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a := src [ j : j + i ]
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if a [ 0 ] . p . size * uint64 ( len ( a ) ) < a [ len ( a ) - 1 ] . p . size {
// Do not merge parts with too big difference in size,
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// since this results in unbalanced merges.
continue
}
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outBytes := uint64 ( 0 )
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for _ , pw := range a {
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outBytes += pw . p . size
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}
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if outBytes > maxOutBytes {
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// There is no sense in checking the remaining bigger parts.
break
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}
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m := float64 ( outBytes ) / float64 ( a [ len ( a ) - 1 ] . p . size )
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if m < maxM {
continue
}
maxM = m
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pws = a
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}
}
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minM := float64 ( maxPartsToMerge ) / 2
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if minM < minMergeMultiplier {
minM = minMergeMultiplier
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}
if maxM < minM {
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// There is no sense in merging parts with too small m,
// since this leads to high disk write IO.
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return dst
}
return append ( dst , pws ... )
}
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func sortPartsForOptimalMerge ( pws [ ] * partWrapper ) {
// Sort src parts by size.
sort . Slice ( pws , func ( i , j int ) bool {
return pws [ i ] . p . size < pws [ j ] . p . size
} )
}
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func removeParts ( pws [ ] * partWrapper , partsToRemove map [ * partWrapper ] bool ) ( [ ] * partWrapper , int ) {
dst := pws [ : 0 ]
for _ , pw := range pws {
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if ! partsToRemove [ pw ] {
dst = append ( dst , pw )
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}
}
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for i := len ( dst ) ; i < len ( pws ) ; i ++ {
pws [ i ] = nil
}
return dst , len ( pws ) - len ( dst )
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}
func isSpecialDir ( name string ) bool {
// Snapshots and cache dirs aren't used anymore.
// Keep them here for backwards compatibility.
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return name == "tmp" || name == "txn" || name == "snapshots" || name == "cache" || fs . IsScheduledForRemoval ( name )
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}