package bloblru import ( "sync" "github.com/restic/restic/internal/debug" "github.com/restic/restic/internal/restic" "github.com/hashicorp/golang-lru/v2/simplelru" ) // Crude estimate of the overhead per blob: a SHA-256, a linked list node // and some pointers. See comment in Cache.add. const overhead = len(restic.ID{}) + 64 // A Cache is a fixed-size LRU cache of blob contents. // It is safe for concurrent access. type Cache struct { mu sync.Mutex c *simplelru.LRU[restic.ID, []byte] free, size int // Current and max capacity, in bytes. } // New constructs a blob cache that stores at most size bytes worth of blobs. func New(size int) *Cache { c := &Cache{ free: size, size: size, } // NewLRU wants us to specify some max. number of entries, else it errors. // The actual maximum will be smaller than size/overhead, because we // evict entries (RemoveOldest in add) to maintain our size bound. maxEntries := size / overhead lru, err := simplelru.NewLRU[restic.ID, []byte](maxEntries, c.evict) if err != nil { panic(err) // Can only be maxEntries <= 0. } c.c = lru return c } // Add adds key id with value blob to c. // It may return an evicted buffer for reuse. func (c *Cache) Add(id restic.ID, blob []byte) (old []byte) { debug.Log("bloblru.Cache: add %v", id) size := cap(blob) + overhead if size > c.size { return } c.mu.Lock() defer c.mu.Unlock() if c.c.Contains(id) { // Doesn't update the recency list. return } // This loop takes at most min(maxEntries, maxchunksize/overhead) // iterations. for size > c.free { _, b, _ := c.c.RemoveOldest() if cap(b) > cap(old) { // We can only return one buffer, so pick the largest. old = b } } c.c.Add(id, blob) c.free -= size return old } func (c *Cache) Get(id restic.ID) ([]byte, bool) { c.mu.Lock() blob, ok := c.c.Get(id) c.mu.Unlock() debug.Log("bloblru.Cache: get %v, hit %v", id, ok) return blob, ok } func (c *Cache) evict(key restic.ID, blob []byte) { debug.Log("bloblru.Cache: evict %v, %d bytes", key, cap(blob)) c.free += cap(blob) + overhead }