prometheus/tsdb/hashcache/series_hash_cache.go

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package hashcache
import (
"sync"
"go.uber.org/atomic"
)
const (
numGenerations = 4
// approxBytesPerEntry is the estimated memory footprint (in bytes) of 1 cache
// entry, measured with TestSeriesHashCache_MeasureApproximateSizePerEntry().
approxBytesPerEntry = 28
)
// SeriesHashCache is a bounded cache mapping the per-block series ID with
// its labels hash.
type SeriesHashCache struct {
maxEntriesPerGeneration uint64
generationsMx sync.RWMutex
generations [numGenerations]cacheGeneration
}
func NewSeriesHashCache(maxBytes uint64) *SeriesHashCache {
maxEntriesPerGeneration := maxBytes / approxBytesPerEntry / numGenerations
if maxEntriesPerGeneration < 1 {
maxEntriesPerGeneration = 1
}
c := &SeriesHashCache{maxEntriesPerGeneration: maxEntriesPerGeneration}
// Init generations.
for idx := 0; idx < numGenerations; idx++ {
c.generations[idx].blocks = &sync.Map{}
c.generations[idx].length = atomic.NewUint64(0)
}
return c
}
// GetBlockCache returns a reference to the series hash cache for the provided blockID.
// The returned cache reference should be retained only for a short period (ie. the duration
// of the execution of 1 single query).
func (c *SeriesHashCache) GetBlockCache(blockID string) *BlockSeriesHashCache {
blockCache := &BlockSeriesHashCache{}
c.generationsMx.RLock()
defer c.generationsMx.RUnlock()
// Trigger a garbage collection if the current generation reached the max size.
if c.generations[0].length.Load() >= c.maxEntriesPerGeneration {
c.generationsMx.RUnlock()
c.gc()
c.generationsMx.RLock()
}
for idx := 0; idx < numGenerations; idx++ {
gen := c.generations[idx]
if value, ok := gen.blocks.Load(blockID); ok {
blockCache.generations[idx] = value.(*blockCacheGeneration)
continue
}
// Create a new per-block cache only for the current generation.
// If the cache for the older generation doesn't exist, then its
// value will be null and skipped when reading.
if idx == 0 {
value, _ := gen.blocks.LoadOrStore(blockID, newBlockCacheGeneration(gen.length))
blockCache.generations[idx] = value.(*blockCacheGeneration)
}
}
return blockCache
}
// GetBlockCacheProvider returns a cache provider bounded to the provided blockID.
func (c *SeriesHashCache) GetBlockCacheProvider(blockID string) *BlockSeriesHashCacheProvider {
return NewBlockSeriesHashCacheProvider(c, blockID)
}
func (c *SeriesHashCache) gc() {
c.generationsMx.Lock()
defer c.generationsMx.Unlock()
// Make sure no other goroutines already GCed the current generation.
if c.generations[0].length.Load() < c.maxEntriesPerGeneration {
return
}
// Shift the current generation to old.
for idx := numGenerations - 2; idx >= 0; idx-- {
c.generations[idx+1] = c.generations[idx]
}
// Initialise a new empty current generation.
c.generations[0] = cacheGeneration{
blocks: &sync.Map{},
length: atomic.NewUint64(0),
}
}
// cacheGeneration holds a multi-blocks cache generation.
type cacheGeneration struct {
// blocks maps the block ID with blockCacheGeneration.
blocks *sync.Map
// Keeps track of the number of items added to the cache. This counter
// is passed to each blockCacheGeneration belonging to this generation.
length *atomic.Uint64
}
// blockCacheGeneration holds a per-block cache generation.
type blockCacheGeneration struct {
// hashes maps per-block series ID with its hash.
hashesMx sync.RWMutex
hashes map[uint64]uint64
// Keeps track of the number of items added to the cache. This counter is
// shared with all blockCacheGeneration in the "parent" cacheGeneration.
length *atomic.Uint64
}
func newBlockCacheGeneration(length *atomic.Uint64) *blockCacheGeneration {
return &blockCacheGeneration{
hashes: make(map[uint64]uint64),
length: length,
}
}
type BlockSeriesHashCache struct {
generations [numGenerations]*blockCacheGeneration
}
// Fetch the hash of the given seriesID from the cache and returns a boolean
// whether the series was found in the cache or not.
func (c *BlockSeriesHashCache) Fetch(seriesID uint64) (uint64, bool) {
// Look for it in all generations, starting from the most recent one (index 0).
for idx := 0; idx < numGenerations; idx++ {
gen := c.generations[idx]
// Skip if the cache doesn't exist for this generation.
if gen == nil {
continue
}
gen.hashesMx.RLock()
value, ok := gen.hashes[seriesID]
gen.hashesMx.RUnlock()
if ok {
return value, true
}
}
return 0, false
}
// Store the hash of the given seriesID in the cache.
func (c *BlockSeriesHashCache) Store(seriesID, hash uint64) {
// Store it in the most recent generation (index 0).
gen := c.generations[0]
gen.hashesMx.Lock()
gen.hashes[seriesID] = hash
gen.hashesMx.Unlock()
gen.length.Add(1)
}
type BlockSeriesHashCacheProvider struct {
cache *SeriesHashCache
blockID string
}
// NewBlockSeriesHashCacheProvider makes a new BlockSeriesHashCacheProvider.
func NewBlockSeriesHashCacheProvider(cache *SeriesHashCache, blockID string) *BlockSeriesHashCacheProvider {
return &BlockSeriesHashCacheProvider{
cache: cache,
blockID: blockID,
}
}
// SeriesHashCache returns a reference to the cache bounded to block provided
// to NewBlockSeriesHashCacheProvider().
func (p *BlockSeriesHashCacheProvider) SeriesHashCache() *BlockSeriesHashCache {
return p.cache.GetBlockCache(p.blockID)
}