206 lines
4.4 KiB
Go
206 lines
4.4 KiB
Go
// Package pool implements a memory pool similar in concept to
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// sync.Pool but with more determinism.
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package pool
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import (
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"fmt"
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"log"
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"sync"
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"time"
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"github.com/rclone/rclone/lib/mmap"
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)
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// Pool of internal buffers
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//
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// We hold buffers in cache. Every time we Get or Put we update
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// minFill which is the minimum len(cache) seen.
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//
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// Every flushTime we remove minFill buffers from the cache as they
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// were not used in the previous flushTime interval.
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type Pool struct {
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mu sync.Mutex
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cache [][]byte
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minFill int // the minimum fill of the cache
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bufferSize int
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poolSize int
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timer *time.Timer
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inUse int
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alloced int
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flushTime time.Duration
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flushPending bool
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alloc func(int) ([]byte, error)
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free func([]byte) error
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}
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// New makes a buffer pool
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//
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// flushTime is the interval the buffer pools is flushed
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// bufferSize is the size of the allocations
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// poolSize is the maximum number of free buffers in the pool
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// useMmap should be set to use mmap allocations
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func New(flushTime time.Duration, bufferSize, poolSize int, useMmap bool) *Pool {
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bp := &Pool{
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cache: make([][]byte, 0, poolSize),
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poolSize: poolSize,
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flushTime: flushTime,
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bufferSize: bufferSize,
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}
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if useMmap {
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bp.alloc = mmap.Alloc
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bp.free = mmap.Free
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} else {
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bp.alloc = func(size int) ([]byte, error) {
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return make([]byte, size), nil
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}
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bp.free = func([]byte) error {
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return nil
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}
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}
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bp.timer = time.AfterFunc(flushTime, bp.flushAged)
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return bp
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}
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// get gets the last buffer in bp.cache
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//
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// Call with mu held
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func (bp *Pool) get() []byte {
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n := len(bp.cache) - 1
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buf := bp.cache[n]
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bp.cache[n] = nil // clear buffer pointer from bp.cache
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bp.cache = bp.cache[:n]
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return buf
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}
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// put puts the buffer on the end of bp.cache
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//
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// Call with mu held
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func (bp *Pool) put(buf []byte) {
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bp.cache = append(bp.cache, buf)
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}
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// flush n entries from the entire buffer pool
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// Call with mu held
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func (bp *Pool) flush(n int) {
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for i := 0; i < n; i++ {
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bp.freeBuffer(bp.get())
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}
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bp.minFill = len(bp.cache)
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}
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// Flush the entire buffer pool
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func (bp *Pool) Flush() {
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bp.mu.Lock()
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bp.flush(len(bp.cache))
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bp.mu.Unlock()
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}
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// Remove bp.minFill buffers
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func (bp *Pool) flushAged() {
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bp.mu.Lock()
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bp.flushPending = false
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bp.flush(bp.minFill)
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// If there are still items in the cache, schedule another flush
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if len(bp.cache) != 0 {
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bp.kickFlusher()
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}
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bp.mu.Unlock()
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}
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// InUse returns the number of buffers in use which haven't been
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// returned to the pool
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func (bp *Pool) InUse() int {
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bp.mu.Lock()
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defer bp.mu.Unlock()
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return bp.inUse
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}
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// InPool returns the number of buffers in the pool
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func (bp *Pool) InPool() int {
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bp.mu.Lock()
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defer bp.mu.Unlock()
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return len(bp.cache)
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}
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// Alloced returns the number of buffers allocated and not yet freed
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func (bp *Pool) Alloced() int {
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bp.mu.Lock()
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defer bp.mu.Unlock()
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return bp.alloced
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}
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// starts or resets the buffer flusher timer - call with mu held
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func (bp *Pool) kickFlusher() {
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if bp.flushPending {
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return
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}
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bp.flushPending = true
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bp.timer.Reset(bp.flushTime)
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}
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// Make sure minFill is correct - call with mu held
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func (bp *Pool) updateMinFill() {
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if len(bp.cache) < bp.minFill {
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bp.minFill = len(bp.cache)
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}
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}
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// Get a buffer from the pool or allocate one
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func (bp *Pool) Get() []byte {
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bp.mu.Lock()
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var buf []byte
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waitTime := time.Millisecond
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for {
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if len(bp.cache) > 0 {
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buf = bp.get()
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break
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} else {
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var err error
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buf, err = bp.alloc(bp.bufferSize)
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if err == nil {
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bp.alloced++
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break
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}
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log.Printf("Failed to get memory for buffer, waiting for %v: %v", waitTime, err)
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bp.mu.Unlock()
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time.Sleep(waitTime)
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bp.mu.Lock()
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waitTime *= 2
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}
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}
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bp.inUse++
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bp.updateMinFill()
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bp.mu.Unlock()
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return buf
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}
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// freeBuffer returns mem to the os if required - call with lock held
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func (bp *Pool) freeBuffer(mem []byte) {
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err := bp.free(mem)
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if err != nil {
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log.Printf("Failed to free memory: %v", err)
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}
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bp.alloced--
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}
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// Put returns the buffer to the buffer cache or frees it
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//
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// Note that if you try to return a buffer of the wrong size to Put it
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// will panic.
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func (bp *Pool) Put(buf []byte) {
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bp.mu.Lock()
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defer bp.mu.Unlock()
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buf = buf[0:cap(buf)]
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if len(buf) != bp.bufferSize {
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panic(fmt.Sprintf("Returning buffer sized %d but expecting %d", len(buf), bp.bufferSize))
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}
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if len(bp.cache) < bp.poolSize {
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bp.put(buf)
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} else {
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bp.freeBuffer(buf)
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}
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bp.inUse--
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bp.updateMinFill()
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bp.kickFlusher()
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}
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