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buffer_pool.go
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buffer_pool.go
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package buf
import (
"runtime"
"sync"
"v2ray.com/core/common/platform"
)
// Pool provides functionality to generate and recycle buffers on demand.
type Pool interface {
// Allocate either returns a unused buffer from the pool, or generates a new one from system.
Allocate() *Buffer
// Free recycles the given buffer.
Free(*Buffer)
}
// SyncPool is a buffer pool based on sync.Pool
type SyncPool struct {
allocator *sync.Pool
}
// NewSyncPool creates a SyncPool with given buffer size.
func NewSyncPool(bufferSize uint32) *SyncPool {
pool := &SyncPool{
allocator: &sync.Pool{
New: func() interface{} { return make([]byte, bufferSize) },
},
}
return pool
}
// Allocate implements Pool.Allocate().
func (p *SyncPool) Allocate() *Buffer {
return &Buffer{
v: p.allocator.Get().([]byte),
pool: p,
}
}
// Free implements Pool.Free().
func (p *SyncPool) Free(buffer *Buffer) {
if buffer.v != nil {
p.allocator.Put(buffer.v)
}
}
// BufferPool is a Pool that utilizes an internal cache.
type BufferPool struct {
chain chan []byte
sub Pool
}
// NewBufferPool creates a new BufferPool with given buffer size, and internal cache size.
func NewBufferPool(bufferSize, poolSize uint32) *BufferPool {
pool := &BufferPool{
chain: make(chan []byte, poolSize),
sub: NewSyncPool(bufferSize),
}
for i := uint32(0); i < poolSize; i++ {
pool.chain <- make([]byte, bufferSize)
}
return pool
}
// Allocate implements Pool.Allocate().
func (p *BufferPool) Allocate() *Buffer {
select {
case b := <-p.chain:
return &Buffer{
v: b,
pool: p,
}
default:
return p.sub.Allocate()
}
}
// Free implements Pool.Free().
func (p *BufferPool) Free(buffer *Buffer) {
if buffer.v == nil {
return
}
select {
case p.chain <- buffer.v:
default:
p.sub.Free(buffer)
}
}
const (
// Size of a regular buffer.
Size = 2 * 1024
poolSizeEnvKey = "v2ray.buffer.size"
)
var (
mediumPool Pool
)
func getDefaultPoolSize() int {
switch runtime.GOARCH {
case "amd64", "386":
return 20
default:
return 5
}
}
func init() {
f := platform.EnvFlag{
Name: poolSizeEnvKey,
AltName: platform.NormalizeEnvName(poolSizeEnvKey),
}
size := f.GetValueAsInt(getDefaultPoolSize())
if size > 0 {
totalByteSize := uint32(size) * 1024 * 1024
mediumPool = NewBufferPool(Size, totalByteSize/Size)
} else {
mediumPool = NewSyncPool(Size)
}
}