// Copyright 2018 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package fs import ( "fmt" "sync" ) // DirentCache is an LRU cache of Dirents. The Dirent's refCount is // incremented when it is added to the cache, and decremented when it is // removed. // // A nil DirentCache corresponds to a cache with size 0. All methods can be // called, but nothing is actually cached. type DirentCache struct { // Maximum size of the cache. This must be saved manually, to handle the case // when cache is nil. maxSize uint64 // mu protects currentSize and direntList. mu sync.Mutex `state:"nosave"` // currentSize is the number of elements in the cache. It must be zero (i.e. // the cache must be empty) on Save. currentSize uint64 `state:"zerovalue"` // list is a direntList, an ilist of Dirents. New Dirents are added // to the front of the list. Old Dirents are removed from the back of // the list. It must be zerovalue (i.e. the cache must be empty) on Save. list direntList `state:"zerovalue"` } // NewDirentCache returns a new DirentCache with the given maxSize. If maxSize // is 0, nil is returned. func NewDirentCache(maxSize uint64) *DirentCache { return &DirentCache{ maxSize: maxSize, } } // Add adds the element to the cache and increments the refCount. If the // argument is already in the cache, it is moved to the front. An element is // removed from the back if the cache is over capacity. func (c *DirentCache) Add(d *Dirent) { if c == nil || c.maxSize == 0 { return } c.mu.Lock() if c.contains(d) { // d is already in cache. Bump it to the front. // currentSize and refCount are unaffected. c.list.Remove(d) c.list.PushFront(d) c.mu.Unlock() return } // d is not in cache. Add it and take a reference. c.list.PushFront(d) d.IncRef() c.currentSize++ // Remove the oldest until we are under the size limit. for c.maxSize > 0 && c.currentSize > c.maxSize { c.remove(c.list.Back()) } c.mu.Unlock() } func (c *DirentCache) remove(d *Dirent) { if !c.contains(d) { panic(fmt.Sprintf("trying to remove %v, which is not in the dirent cache", d)) } c.list.Remove(d) d.SetPrev(nil) d.SetNext(nil) d.DecRef() c.currentSize-- } // Remove removes the element from the cache and decrements its refCount. It // also sets the previous and next elements to nil, which allows us to // determine if a given element is in the cache. func (c *DirentCache) Remove(d *Dirent) { if c == nil || c.maxSize == 0 { return } c.mu.Lock() if !c.contains(d) { c.mu.Unlock() return } c.remove(d) c.mu.Unlock() } // Size returns the number of elements in the cache. func (c *DirentCache) Size() uint64 { if c == nil { return 0 } c.mu.Lock() size := c.currentSize c.mu.Unlock() return size } func (c *DirentCache) contains(d *Dirent) bool { // If d has a Prev or Next element, then it is in the cache. if d.Prev() != nil || d.Next() != nil { return true } // Otherwise, d is in the cache if it is the only element (and thus the // first element). return c.list.Front() == d } // Invalidate removes all Dirents from the cache, caling DecRef on each. func (c *DirentCache) Invalidate() { if c == nil { return } c.mu.Lock() for c.list.Front() != nil { c.remove(c.list.Front()) } c.mu.Unlock() }