mirror of https://github.com/minio/minio.git
316 lines
8.7 KiB
Go
316 lines
8.7 KiB
Go
/*
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* Minio Cloud Storage, (C) 2016, 2017 Minio, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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// Package objcache implements in memory caching methods.
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package objcache
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import (
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"bytes"
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"errors"
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"io"
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"runtime/debug"
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"sync"
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"time"
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)
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const (
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// NoExpiry represents caches to be permanent and can only be deleted.
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NoExpiry = time.Duration(0)
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// DefaultExpiry represents three days time duration when individual entries will be expired.
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DefaultExpiry = time.Duration(3 * 24 * time.Hour)
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// defaultBufferRatio represents default ratio used to calculate the
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// individual cache entry buffer size.
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defaultBufferRatio = uint64(10)
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// defaultGCPercent represents default garbage collection target percentage.
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defaultGCPercent = 50
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)
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var (
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// ErrKeyNotFoundInCache - key not found in cache.
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ErrKeyNotFoundInCache = errors.New("Key not found in cache")
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// ErrCacheFull - cache is full.
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ErrCacheFull = errors.New("Not enough space in cache")
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// ErrExcessData - excess data was attempted to be written on cache.
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ErrExcessData = errors.New("Attempted excess write on cache")
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)
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// buffer represents the in memory cache of a single entry.
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// buffer carries value of the data and last accessed time.
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type buffer struct {
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value []byte // Value of the entry.
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lastAccessed time.Time // Represents time when value was last accessed.
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}
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// Cache holds the required variables to compose an in memory cache system
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// which also provides expiring key mechanism and also maxSize.
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type Cache struct {
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// Mutex is used for handling the concurrent
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// read/write requests for cache
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mutex sync.Mutex
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// Once is used for resetting GC once after
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// peak cache usage.
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onceGC sync.Once
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// maxSize is a total size for overall cache
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maxSize uint64
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// maxCacheEntrySize is a total size per key buffer.
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maxCacheEntrySize uint64
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// currentSize is a current size in memory
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currentSize uint64
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// OnEviction - callback function for eviction
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OnEviction func(key string)
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// totalEvicted counter to keep track of total expirys
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totalEvicted int
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// map of objectName and its contents
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entries map[string]*buffer
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// Expiry in time duration.
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expiry time.Duration
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// Stop garbage collection routine, stops any running GC routine.
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stopGC chan struct{}
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}
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// New - Return a new cache with a given default expiry
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// duration. If the expiry duration is less than one
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// (or NoExpiry), the items in the cache never expire
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// (by default), and must be deleted manually.
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func New(maxSize uint64, expiry time.Duration) (c *Cache, err error) {
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if maxSize == 0 {
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err = errors.New("invalid maximum cache size")
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return c, err
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}
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// A garbage collection is triggered when the ratio
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// of freshly allocated data to live data remaining
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// after the previous collection reaches this percentage.
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//
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// - https://golang.org/pkg/runtime/debug/#SetGCPercent
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//
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// This means that by default GC is triggered after
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// we've allocated an extra amount of memory proportional
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// to the amount already in use.
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//
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// If gcpercent=100 and we're using 4M, we'll gc again
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// when we get to 8M.
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//
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// Set this value to 40% if caching is enabled.
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debug.SetGCPercent(defaultGCPercent)
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// Max cache entry size - indicates the
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// maximum buffer per key that can be held in
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// memory. Currently this value is 1/10th
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// the size of requested cache size.
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maxCacheEntrySize := func() uint64 {
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i := maxSize / defaultBufferRatio
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if i == 0 {
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i = maxSize
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}
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return i
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}()
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c = &Cache{
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onceGC: sync.Once{},
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maxSize: maxSize,
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maxCacheEntrySize: maxCacheEntrySize,
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entries: make(map[string]*buffer),
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expiry: expiry,
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}
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// We have expiry start the janitor routine.
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if expiry > 0 {
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// Initialize a new stop GC channel.
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c.stopGC = make(chan struct{})
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// Start garbage collection routine to expire objects.
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c.StartGC()
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}
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return c, nil
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}
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// Create - validates if object size fits with in cache size limit and returns a io.WriteCloser
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// to which object contents can be written and finally Close()'d. During Close() we
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// checks if the amount of data written is equal to the size of the object, in which
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// case it saves the contents to object cache.
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func (c *Cache) Create(key string, size int64) (w io.WriteCloser, err error) {
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// Recovers any panic generated and return errors appropriately.
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defer func() {
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if r := recover(); r != nil {
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// Recover any panic and return ErrCacheFull.
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err = ErrCacheFull
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}
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}() // Do not crash the server.
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valueLen := uint64(size)
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// Check if the size of the object is > 1/10th the size
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// of the cache, if yes then we ignore it.
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if valueLen > c.maxCacheEntrySize {
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return nil, ErrCacheFull
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}
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c.mutex.Lock()
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// Check if the incoming size is going to exceed the
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// effective cache size, if yes return error instead.
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if c.currentSize+valueLen > c.maxSize {
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c.mutex.Unlock()
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return nil, ErrCacheFull
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}
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// Change GC percent if the current cache usage might
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// become 75% of the maximum allowed usage, change
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// the GC percent.
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if c.currentSize+valueLen > (75 * c.maxSize / 100) {
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c.onceGC.Do(func() { debug.SetGCPercent(defaultGCPercent - 25) })
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}
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c.mutex.Unlock()
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cbuf := &cappedWriter{
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offset: 0,
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cap: size,
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buffer: make([]byte, size),
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}
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// Function called on close which saves the object contents
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// to the object cache.
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onClose := func() error {
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c.mutex.Lock()
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defer c.mutex.Unlock()
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if size != cbuf.offset {
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cbuf.Reset() // Reset resets the buffer to be empty.
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// Full object not available hence do not save buf to object cache.
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return io.ErrShortBuffer
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}
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// Full object available in buf, save it to cache.
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c.entries[key] = &buffer{
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value: cbuf.buffer,
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lastAccessed: time.Now().UTC(), // Save last accessed time.
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}
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// Account for the memory allocated above.
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c.currentSize += uint64(size)
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return nil
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}
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// Object contents that is written - cappedWriter.Write(data)
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// will be accumulated in buf which implements io.Writer.
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cbuf.onClose = onClose
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// Capped writer.
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return cbuf, nil
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}
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// Open - open the in-memory file, returns an in memory read seeker.
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// returns an error ErrNotFoundInCache, if the key does not exist.
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// Returns ErrKeyNotFoundInCache if entry's lastAccessedTime is older
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// than objModTime.
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func (c *Cache) Open(key string, objModTime time.Time) (io.ReaderAt, error) {
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// Entry exists, return the readable buffer.
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c.mutex.Lock()
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defer c.mutex.Unlock()
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buf, ok := c.entries[key]
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if !ok {
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return nil, ErrKeyNotFoundInCache
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}
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// Check if buf is recent copy of the object on disk.
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if buf.lastAccessed.Before(objModTime) {
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c.delete(key)
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return nil, ErrKeyNotFoundInCache
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}
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buf.lastAccessed = time.Now().UTC()
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return bytes.NewReader(buf.value), nil
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}
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// Delete - delete deletes an entry from the cache.
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func (c *Cache) Delete(key string) {
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c.mutex.Lock()
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c.delete(key)
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c.mutex.Unlock()
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if c.OnEviction != nil {
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c.OnEviction(key)
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}
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}
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// gc - garbage collect all the expired entries from the cache.
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func (c *Cache) gc() {
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var evictedEntries []string
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c.mutex.Lock()
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for k, v := range c.entries {
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if c.expiry > 0 && time.Now().UTC().Sub(v.lastAccessed) > c.expiry {
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c.delete(k)
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evictedEntries = append(evictedEntries, k)
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}
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}
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c.mutex.Unlock()
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for _, k := range evictedEntries {
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if c.OnEviction != nil {
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c.OnEviction(k)
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}
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}
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}
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// StopGC sends a message to the expiry routine to stop
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// expiring cached entries. NOTE: once this is called, cached
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// entries will not be expired, be careful if you are using this.
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func (c *Cache) StopGC() {
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if c.stopGC != nil {
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c.stopGC <- struct{}{}
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}
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}
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// StartGC starts running a routine ticking at expiry interval,
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// on each interval this routine does a sweep across the cache
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// entries and garbage collects all the expired entries.
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func (c *Cache) StartGC() {
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go func() {
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for {
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select {
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// Wait till cleanup interval and initiate delete expired entries.
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case <-time.After(c.expiry / 4):
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c.gc()
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// Stop the routine, usually called by the user of object cache during cleanup.
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case <-c.stopGC:
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return
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}
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}
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}()
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}
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// Deletes a requested entry from the cache.
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func (c *Cache) delete(key string) {
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if _, ok := c.entries[key]; ok {
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deletedSize := uint64(len(c.entries[key].value))
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delete(c.entries, key)
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c.currentSize -= deletedSize
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c.totalEvicted++
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}
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}
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