// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package sync import ( "internal/race" "runtime" "sync/atomic" "unsafe" ) // A Pool is a set of temporary objects that may be individually saved and // retrieved. // // Any item stored in the Pool may be removed automatically at any time without // notification. If the Pool holds the only reference when this happens, the // item might be deallocated. // // A Pool is safe for use by multiple goroutines simultaneously. // // Pool's purpose is to cache allocated but unused items for later reuse, // relieving pressure on the garbage collector. That is, it makes it easy to // build efficient, thread-safe free lists. However, it is not suitable for all // free lists. // // An appropriate use of a Pool is to manage a group of temporary items // silently shared among and potentially reused by concurrent independent // clients of a package. Pool provides a way to amortize allocation overhead // across many clients. // // An example of good use of a Pool is in the fmt package, which maintains a // dynamically-sized store of temporary output buffers. The store scales under // load (when many goroutines are actively printing) and shrinks when // quiescent. // // On the other hand, a free list maintained as part of a short-lived object is // not a suitable use for a Pool, since the overhead does not amortize well in // that scenario. It is more efficient to have such objects implement their own // free list. // // A Pool must not be copied after first use. type Pool struct { noCopy noCopy local unsafe.Pointer // local fixed-size per-P pool, actual type is [P]poolLocal localSize uintptr // size of the local array // New optionally specifies a function to generate // a value when Get would otherwise return nil. // It may not be changed concurrently with calls to Get. New func() interface{} } // Local per-P Pool appendix. type poolLocal struct { private interface{} // Can be used only by the respective P. shared []interface{} // Can be used by any P. Mutex // Protects shared. pad [128]byte // Prevents false sharing. } // Put adds x to the pool. func (p *Pool) Put(x interface{}) { if race.Enabled { // Under race detector the Pool degenerates into no-op. // It's conforming, simple and does not introduce excessive // happens-before edges between unrelated goroutines. return } if x == nil { return } l := p.pin() if l.private == nil { l.private = x x = nil } runtime_procUnpin() if x == nil { return } l.Lock() l.shared = append(l.shared, x) l.Unlock() } // Get selects an arbitrary item from the Pool, removes it from the // Pool, and returns it to the caller. // Get may choose to ignore the pool and treat it as empty. // Callers should not assume any relation between values passed to Put and // the values returned by Get. // // If Get would otherwise return nil and p.New is non-nil, Get returns // the result of calling p.New. func (p *Pool) Get() interface{} { if race.Enabled { if p.New != nil { return p.New() } return nil } l := p.pin() x := l.private l.private = nil runtime_procUnpin() if x != nil { return x } l.Lock() last := len(l.shared) - 1 if last >= 0 { x = l.shared[last] l.shared = l.shared[:last] } l.Unlock() if x != nil { return x } return p.getSlow() } func (p *Pool) getSlow() (x interface{}) { // See the comment in pin regarding ordering of the loads. size := atomic.LoadUintptr(&p.localSize) // load-acquire local := p.local // load-consume // Try to steal one element from other procs. pid := runtime_procPin() runtime_procUnpin() for i := 0; i < int(size); i++ { l := indexLocal(local, (pid+i+1)%int(size)) l.Lock() last := len(l.shared) - 1 if last >= 0 { x = l.shared[last] l.shared = l.shared[:last] l.Unlock() break } l.Unlock() } if x == nil && p.New != nil { x = p.New() } return x } // pin pins the current goroutine to P, disables preemption and returns poolLocal pool for the P. // Caller must call runtime_procUnpin() when done with the pool. func (p *Pool) pin() *poolLocal { pid := runtime_procPin() // In pinSlow we store to localSize and then to local, here we load in opposite order. // Since we've disabled preemption, GC cannot happen in between. // Thus here we must observe local at least as large localSize. // We can observe a newer/larger local, it is fine (we must observe its zero-initialized-ness). s := atomic.LoadUintptr(&p.localSize) // load-acquire l := p.local // load-consume if uintptr(pid) < s { return indexLocal(l, pid) } return p.pinSlow() } func (p *Pool) pinSlow() *poolLocal { // Retry under the mutex. // Can not lock the mutex while pinned. runtime_procUnpin() allPoolsMu.Lock() defer allPoolsMu.Unlock() pid := runtime_procPin() // poolCleanup won't be called while we are pinned. s := p.localSize l := p.local if uintptr(pid) < s { return indexLocal(l, pid) } if p.local == nil { allPools = append(allPools, p) } // If GOMAXPROCS changes between GCs, we re-allocate the array and lose the old one. size := runtime.GOMAXPROCS(0) local := make([]poolLocal, size) atomic.StorePointer(&p.local, unsafe.Pointer(&local[0])) // store-release atomic.StoreUintptr(&p.localSize, uintptr(size)) // store-release return &local[pid] } func poolCleanup() { // This function is called with the world stopped, at the beginning of a garbage collection. // It must not allocate and probably should not call any runtime functions. // Defensively zero out everything, 2 reasons: // 1. To prevent false retention of whole Pools. // 2. If GC happens while a goroutine works with l.shared in Put/Get, // it will retain whole Pool. So next cycle memory consumption would be doubled. for i, p := range allPools { allPools[i] = nil for i := 0; i < int(p.localSize); i++ { l := indexLocal(p.local, i) l.private = nil for j := range l.shared { l.shared[j] = nil } l.shared = nil } p.local = nil p.localSize = 0 } allPools = []*Pool{} } var ( allPoolsMu Mutex allPools []*Pool ) func init() { runtime_registerPoolCleanup(poolCleanup) } func indexLocal(l unsafe.Pointer, i int) *poolLocal { return &(*[1000000]poolLocal)(l)[i] } // Implemented in runtime. func runtime_registerPoolCleanup(cleanup func()) func runtime_procPin() int func runtime_procUnpin()