mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
synced 2024-12-30 07:40:06 +01:00
85b604d414
Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com>
564 lines
15 KiB
Go
564 lines
15 KiB
Go
package logstorage
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import (
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"os"
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"path/filepath"
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"sort"
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"sync"
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"sync/atomic"
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"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
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"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/workingsetcache"
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)
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// StorageStats represents stats for the storage. It may be obtained by calling Storage.UpdateStats().
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type StorageStats struct {
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// RowsDroppedTooBigTimestamp is the number of rows dropped during data ingestion because their timestamp is smaller than the minimum allowed
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RowsDroppedTooBigTimestamp uint64
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// RowsDroppedTooSmallTimestamp is the number of rows dropped during data ingestion because their timestamp is bigger than the maximum allowed
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RowsDroppedTooSmallTimestamp uint64
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// PartitionsCount is the number of partitions in the storage
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PartitionsCount uint64
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// IsReadOnly indicates whether the storage is read-only.
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IsReadOnly bool
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// PartitionStats contains partition stats.
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PartitionStats
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}
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// Reset resets s.
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func (s *StorageStats) Reset() {
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*s = StorageStats{}
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}
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// StorageConfig is the config for the Storage.
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type StorageConfig struct {
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// Retention is the retention for the ingested data.
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//
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// Older data is automatically deleted.
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Retention time.Duration
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// FlushInterval is the interval for flushing the in-memory data to disk at the Storage
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FlushInterval time.Duration
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// FutureRetention is the allowed retention from the current time to future for the ingested data.
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//
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// Log entries with timestamps bigger than now+FutureRetention are ignored.
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FutureRetention time.Duration
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// MinFreeDiskSpaceBytes is the minimum free disk space at storage path after which the storage stops accepting new data.
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MinFreeDiskSpaceBytes int64
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// LogNewStreams indicates whether to log newly created log streams.
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//
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// This can be useful for debugging of high cardinality issues.
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// https://docs.victoriametrics.com/VictoriaLogs/keyConcepts.html#high-cardinality
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LogNewStreams bool
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// LogIngestedRows indicates whether to log the ingested log entries.
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//
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// This can be useful for debugging of data ingestion.
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LogIngestedRows bool
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}
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// Storage is the storage for log entries.
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type Storage struct {
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rowsDroppedTooBigTimestamp uint64
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rowsDroppedTooSmallTimestamp uint64
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// path is the path to the Storage directory
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path string
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// retention is the retention for the stored data
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//
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// older data is automatically deleted
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retention time.Duration
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// flushInterval is the interval for flushing in-memory data to disk
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flushInterval time.Duration
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// futureRetention is the maximum allowed interval to write data into the future
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futureRetention time.Duration
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// minFreeDiskSpaceBytes is the minimum free disk space at path after which the storage stops accepting new data
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minFreeDiskSpaceBytes uint64
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// logNewStreams instructs to log new streams if it is set to true
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logNewStreams bool
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// logIngestedRows instructs to log all the ingested log entries if it is set to true
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logIngestedRows bool
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// flockF is a file, which makes sure that the Storage is opened by a single process
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flockF *os.File
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// partitions is a list of partitions for the Storage.
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//
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// It must be accessed under partitionsLock.
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partitions []*partitionWrapper
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// ptwHot is the "hot" partition, were the last rows were ingested.
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//
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// It must be accessed under partitionsLock.
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ptwHot *partitionWrapper
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// partitionsLock protects partitions and ptwHot.
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partitionsLock sync.Mutex
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// stopCh is closed when the Storage must be stopped.
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stopCh chan struct{}
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// wg is used for waiting for background workers at MustClose().
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wg sync.WaitGroup
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// streamIDCache caches (partition, streamIDs) seen during data ingestion.
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//
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// It reduces the load on persistent storage during data ingestion by skipping
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// the check whether the given stream is already registered in the persistent storage.
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streamIDCache *workingsetcache.Cache
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// streamTagsCache caches StreamTags entries keyed by streamID.
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//
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// There is no need to put partition into the key for StreamTags,
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// since StreamTags are uniquely identified by streamID.
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//
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// It reduces the load on persistent storage during querying
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// when StreamTags must be found for the particular streamID
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streamTagsCache *workingsetcache.Cache
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// streamFilterCache caches streamIDs keyed by (partition, []TenanID, StreamFilter).
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//
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// It reduces the load on persistent storage during querying by _stream:{...} filter.
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streamFilterCache *workingsetcache.Cache
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}
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type partitionWrapper struct {
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// refCount is the number of active references to p.
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// When it reaches zero, then the p is closed.
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refCount int32
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// The flag, which is set when the partition must be deleted after refCount reaches zero.
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mustBeDeleted uint32
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// day is the day for the partition in the unix timestamp divided by the number of seconds in the day.
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day int64
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// pt is the wrapped partition.
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pt *partition
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}
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func newPartitionWrapper(pt *partition, day int64) *partitionWrapper {
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pw := &partitionWrapper{
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day: day,
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pt: pt,
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}
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pw.incRef()
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return pw
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}
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func (ptw *partitionWrapper) incRef() {
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atomic.AddInt32(&ptw.refCount, 1)
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}
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func (ptw *partitionWrapper) decRef() {
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n := atomic.AddInt32(&ptw.refCount, -1)
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if n > 0 {
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return
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}
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deletePath := ""
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if atomic.LoadUint32(&ptw.mustBeDeleted) != 0 {
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deletePath = ptw.pt.path
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}
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// Close pw.pt, since nobody refers to it.
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mustClosePartition(ptw.pt)
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ptw.pt = nil
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// Delete partition if needed.
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if deletePath != "" {
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mustDeletePartition(deletePath)
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}
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}
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func (ptw *partitionWrapper) canAddAllRows(lr *LogRows) bool {
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minTimestamp := ptw.day * nsecPerDay
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maxTimestamp := minTimestamp + nsecPerDay - 1
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for _, ts := range lr.timestamps {
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if ts < minTimestamp || ts > maxTimestamp {
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return false
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}
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}
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return true
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}
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// mustCreateStorage creates Storage at the given path.
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func mustCreateStorage(path string) {
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fs.MustMkdirFailIfExist(path)
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partitionsPath := filepath.Join(path, partitionsDirname)
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fs.MustMkdirFailIfExist(partitionsPath)
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}
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// MustOpenStorage opens Storage at the given path.
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//
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// MustClose must be called on the returned Storage when it is no longer needed.
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func MustOpenStorage(path string, cfg *StorageConfig) *Storage {
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flushInterval := cfg.FlushInterval
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if flushInterval < time.Second {
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flushInterval = time.Second
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}
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retention := cfg.Retention
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if retention < 24*time.Hour {
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retention = 24 * time.Hour
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}
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futureRetention := cfg.FutureRetention
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if futureRetention < 24*time.Hour {
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futureRetention = 24 * time.Hour
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}
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var minFreeDiskSpaceBytes uint64
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if cfg.MinFreeDiskSpaceBytes >= 0 {
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minFreeDiskSpaceBytes = uint64(cfg.MinFreeDiskSpaceBytes)
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}
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if !fs.IsPathExist(path) {
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mustCreateStorage(path)
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}
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flockF := fs.MustCreateFlockFile(path)
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// Load caches
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mem := memory.Allowed()
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streamIDCachePath := filepath.Join(path, cacheDirname, streamIDCacheFilename)
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streamIDCache := workingsetcache.Load(streamIDCachePath, mem/16)
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streamTagsCache := workingsetcache.New(mem / 10)
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streamFilterCache := workingsetcache.New(mem / 10)
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s := &Storage{
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path: path,
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retention: retention,
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flushInterval: flushInterval,
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futureRetention: futureRetention,
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minFreeDiskSpaceBytes: minFreeDiskSpaceBytes,
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logNewStreams: cfg.LogNewStreams,
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logIngestedRows: cfg.LogIngestedRows,
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flockF: flockF,
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stopCh: make(chan struct{}),
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streamIDCache: streamIDCache,
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streamTagsCache: streamTagsCache,
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streamFilterCache: streamFilterCache,
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}
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partitionsPath := filepath.Join(path, partitionsDirname)
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fs.MustMkdirIfNotExist(partitionsPath)
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des := fs.MustReadDir(partitionsPath)
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ptws := make([]*partitionWrapper, len(des))
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for i, de := range des {
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fname := de.Name()
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// Parse the day for the partition
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t, err := time.Parse(partitionNameFormat, fname)
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if err != nil {
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logger.Panicf("FATAL: cannot parse partition filename %q at %q; it must be in the form YYYYMMDD: %s", fname, partitionsPath, err)
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}
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day := t.UTC().UnixNano() / nsecPerDay
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partitionPath := filepath.Join(partitionsPath, fname)
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pt := mustOpenPartition(s, partitionPath)
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ptws[i] = newPartitionWrapper(pt, day)
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}
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sort.Slice(ptws, func(i, j int) bool {
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return ptws[i].day < ptws[j].day
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})
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// Delete partitions from the future if needed
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maxAllowedDay := s.getMaxAllowedDay()
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j := len(ptws) - 1
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for j >= 0 {
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ptw := ptws[j]
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if ptw.day <= maxAllowedDay {
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break
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}
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logger.Infof("the partition %s is scheduled to be deleted because it is outside the -futureRetention=%dd", ptw.pt.path, durationToDays(s.futureRetention))
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atomic.StoreUint32(&ptw.mustBeDeleted, 1)
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ptw.decRef()
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j--
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}
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j++
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for i := j; i < len(ptws); i++ {
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ptws[i] = nil
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}
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ptws = ptws[:j]
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s.partitions = ptws
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s.runRetentionWatcher()
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return s
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}
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const partitionNameFormat = "20060102"
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func (s *Storage) runRetentionWatcher() {
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s.wg.Add(1)
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go func() {
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s.watchRetention()
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s.wg.Done()
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}()
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}
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func (s *Storage) watchRetention() {
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ticker := time.NewTicker(time.Hour)
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defer ticker.Stop()
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for {
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var ptwsToDelete []*partitionWrapper
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minAllowedDay := s.getMinAllowedDay()
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s.partitionsLock.Lock()
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// Delete outdated partitions.
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// s.partitions are sorted by day, so the partitions, which can become outdated, are located at the beginning of the list
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for _, ptw := range s.partitions {
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if ptw.day >= minAllowedDay {
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break
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}
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ptwsToDelete = append(ptwsToDelete, ptw)
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if ptw == s.ptwHot {
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s.ptwHot = nil
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}
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}
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for i := range ptwsToDelete {
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s.partitions[i] = nil
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}
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s.partitions = s.partitions[len(ptwsToDelete):]
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s.partitionsLock.Unlock()
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for _, ptw := range ptwsToDelete {
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logger.Infof("the partition %s is scheduled to be deleted because it is outside the -retentionPeriod=%dd", ptw.pt.path, durationToDays(s.retention))
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atomic.StoreUint32(&ptw.mustBeDeleted, 1)
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ptw.decRef()
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}
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select {
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case <-s.stopCh:
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return
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case <-ticker.C:
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}
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}
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}
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func (s *Storage) getMinAllowedDay() int64 {
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return time.Now().UTC().Add(-s.retention).UnixNano() / nsecPerDay
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}
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func (s *Storage) getMaxAllowedDay() int64 {
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return time.Now().UTC().Add(s.futureRetention).UnixNano() / nsecPerDay
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}
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// MustClose closes s.
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//
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// It is expected that nobody uses the storage at the close time.
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func (s *Storage) MustClose() {
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// Stop background workers
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close(s.stopCh)
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s.wg.Wait()
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// Close partitions
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for _, pw := range s.partitions {
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pw.decRef()
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if pw.refCount != 0 {
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logger.Panicf("BUG: there are %d users of partition", pw.refCount)
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}
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}
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s.partitions = nil
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s.ptwHot = nil
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// Save caches
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streamIDCachePath := filepath.Join(s.path, cacheDirname, streamIDCacheFilename)
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if err := s.streamIDCache.Save(streamIDCachePath); err != nil {
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logger.Panicf("FATAL: cannot save streamID cache to %q: %s", streamIDCachePath, err)
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}
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s.streamIDCache.Stop()
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s.streamIDCache = nil
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s.streamTagsCache.Stop()
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s.streamTagsCache = nil
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s.streamFilterCache.Stop()
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s.streamFilterCache = nil
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// release lock file
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fs.MustClose(s.flockF)
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s.flockF = nil
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s.path = ""
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}
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// MustAddRows adds lr to s.
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//
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// It is recommended checking whether the s is in read-only mode by calling IsReadOnly()
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// before calling MustAddRows.
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func (s *Storage) MustAddRows(lr *LogRows) {
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// Fast path - try adding all the rows to the hot partition
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s.partitionsLock.Lock()
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ptwHot := s.ptwHot
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if ptwHot != nil {
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ptwHot.incRef()
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}
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s.partitionsLock.Unlock()
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if ptwHot != nil {
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if ptwHot.canAddAllRows(lr) {
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ptwHot.pt.mustAddRows(lr)
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ptwHot.decRef()
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return
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}
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ptwHot.decRef()
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}
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// Slow path - rows cannot be added to the hot partition, so split rows among available partitions
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minAllowedDay := s.getMinAllowedDay()
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maxAllowedDay := s.getMaxAllowedDay()
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m := make(map[int64]*LogRows)
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for i, ts := range lr.timestamps {
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day := ts / nsecPerDay
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if day < minAllowedDay {
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rf := RowFormatter(lr.rows[i])
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tsf := TimeFormatter(ts)
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minAllowedTsf := TimeFormatter(minAllowedDay * nsecPerDay)
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tooSmallTimestampLogger.Warnf("skipping log entry with too small timestamp=%s; it must be bigger than %s according "+
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"to the configured -retentionPeriod=%dd. See https://docs.victoriametrics.com/VictoriaLogs/#retention ; "+
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"log entry: %s", &tsf, &minAllowedTsf, durationToDays(s.retention), &rf)
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atomic.AddUint64(&s.rowsDroppedTooSmallTimestamp, 1)
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continue
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}
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if day > maxAllowedDay {
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rf := RowFormatter(lr.rows[i])
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tsf := TimeFormatter(ts)
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maxAllowedTsf := TimeFormatter(maxAllowedDay * nsecPerDay)
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tooBigTimestampLogger.Warnf("skipping log entry with too big timestamp=%s; it must be smaller than %s according "+
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"to the configured -futureRetention=%dd; see https://docs.victoriametrics.com/VictoriaLogs/#retention ; "+
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"log entry: %s", &tsf, &maxAllowedTsf, durationToDays(s.futureRetention), &rf)
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atomic.AddUint64(&s.rowsDroppedTooBigTimestamp, 1)
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continue
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}
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lrPart := m[day]
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if lrPart == nil {
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lrPart = GetLogRows(nil, nil)
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m[day] = lrPart
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}
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lrPart.mustAddInternal(lr.streamIDs[i], ts, lr.rows[i], lr.streamTagsCanonicals[i])
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}
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for day, lrPart := range m {
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ptw := s.getPartitionForDay(day)
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ptw.pt.mustAddRows(lrPart)
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ptw.decRef()
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PutLogRows(lrPart)
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}
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}
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var tooSmallTimestampLogger = logger.WithThrottler("too_small_timestamp", 5*time.Second)
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var tooBigTimestampLogger = logger.WithThrottler("too_big_timestamp", 5*time.Second)
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const nsecPerDay = 24 * 3600 * 1e9
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// TimeFormatter implements fmt.Stringer for timestamp in nanoseconds
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type TimeFormatter int64
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// String returns human-readable representation for tf.
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func (tf *TimeFormatter) String() string {
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ts := int64(*tf)
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t := time.Unix(0, ts).UTC()
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return t.Format(time.RFC3339Nano)
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}
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func (s *Storage) getPartitionForDay(day int64) *partitionWrapper {
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s.partitionsLock.Lock()
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// Search for the partition using binary search
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ptws := s.partitions
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n := sort.Search(len(ptws), func(i int) bool {
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return ptws[i].day >= day
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})
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var ptw *partitionWrapper
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if n < len(ptws) {
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ptw = ptws[n]
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if ptw.day != day {
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ptw = nil
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}
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}
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if ptw == nil {
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// Missing partition for the given day. Create it.
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fname := time.Unix(0, day*nsecPerDay).UTC().Format(partitionNameFormat)
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partitionPath := filepath.Join(s.path, partitionsDirname, fname)
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mustCreatePartition(partitionPath)
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pt := mustOpenPartition(s, partitionPath)
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ptw = newPartitionWrapper(pt, day)
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if n == len(ptws) {
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ptws = append(ptws, ptw)
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} else {
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ptws = append(ptws[:n+1], ptws[n:]...)
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ptws[n] = ptw
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}
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s.partitions = ptws
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}
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s.ptwHot = ptw
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ptw.incRef()
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s.partitionsLock.Unlock()
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return ptw
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}
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// UpdateStats updates ss for the given s.
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func (s *Storage) UpdateStats(ss *StorageStats) {
|
|
ss.RowsDroppedTooBigTimestamp += atomic.LoadUint64(&s.rowsDroppedTooBigTimestamp)
|
|
ss.RowsDroppedTooSmallTimestamp += atomic.LoadUint64(&s.rowsDroppedTooSmallTimestamp)
|
|
|
|
s.partitionsLock.Lock()
|
|
ss.PartitionsCount += uint64(len(s.partitions))
|
|
for _, ptw := range s.partitions {
|
|
ptw.pt.updateStats(&ss.PartitionStats)
|
|
}
|
|
s.partitionsLock.Unlock()
|
|
|
|
ss.IsReadOnly = s.IsReadOnly()
|
|
}
|
|
|
|
// IsReadOnly returns true if s is in read-only mode.
|
|
func (s *Storage) IsReadOnly() bool {
|
|
available := fs.MustGetFreeSpace(s.path)
|
|
return available < s.minFreeDiskSpaceBytes
|
|
}
|
|
|
|
func (s *Storage) debugFlush() {
|
|
s.partitionsLock.Lock()
|
|
ptws := append([]*partitionWrapper{}, s.partitions...)
|
|
for _, ptw := range ptws {
|
|
ptw.incRef()
|
|
}
|
|
s.partitionsLock.Unlock()
|
|
|
|
for _, ptw := range ptws {
|
|
ptw.pt.debugFlush()
|
|
ptw.decRef()
|
|
}
|
|
}
|
|
|
|
func durationToDays(d time.Duration) int64 {
|
|
return int64(d / (time.Hour * 24))
|
|
}
|