package pipe import ( "errors" "io" "runtime" "sync" "time" "github.com/xtls/xray-core/v1/common" "github.com/xtls/xray-core/v1/common/buf" "github.com/xtls/xray-core/v1/common/signal" "github.com/xtls/xray-core/v1/common/signal/done" ) type state byte const ( open state = iota closed errord ) type pipeOption struct { limit int32 // maximum buffer size in bytes discardOverflow bool } func (o *pipeOption) isFull(curSize int32) bool { return o.limit >= 0 && curSize > o.limit } type pipe struct { sync.Mutex data buf.MultiBuffer readSignal *signal.Notifier writeSignal *signal.Notifier done *done.Instance option pipeOption state state } var errBufferFull = errors.New("buffer full") var errSlowDown = errors.New("slow down") func (p *pipe) getState(forRead bool) error { switch p.state { case open: if !forRead && p.option.isFull(p.data.Len()) { return errBufferFull } return nil case closed: if !forRead { return io.ErrClosedPipe } if !p.data.IsEmpty() { return nil } return io.EOF case errord: return io.ErrClosedPipe default: panic("impossible case") } } func (p *pipe) readMultiBufferInternal() (buf.MultiBuffer, error) { p.Lock() defer p.Unlock() if err := p.getState(true); err != nil { return nil, err } data := p.data p.data = nil return data, nil } func (p *pipe) ReadMultiBuffer() (buf.MultiBuffer, error) { for { data, err := p.readMultiBufferInternal() if data != nil || err != nil { p.writeSignal.Signal() return data, err } select { case <-p.readSignal.Wait(): case <-p.done.Wait(): } } } func (p *pipe) ReadMultiBufferTimeout(d time.Duration) (buf.MultiBuffer, error) { timer := time.NewTimer(d) defer timer.Stop() for { data, err := p.readMultiBufferInternal() if data != nil || err != nil { p.writeSignal.Signal() return data, err } select { case <-p.readSignal.Wait(): case <-p.done.Wait(): case <-timer.C: return nil, buf.ErrReadTimeout } } } func (p *pipe) writeMultiBufferInternal(mb buf.MultiBuffer) error { p.Lock() defer p.Unlock() if err := p.getState(false); err != nil { return err } if p.data == nil { p.data = mb return nil } p.data, _ = buf.MergeMulti(p.data, mb) return errSlowDown } func (p *pipe) WriteMultiBuffer(mb buf.MultiBuffer) error { if mb.IsEmpty() { return nil } for { err := p.writeMultiBufferInternal(mb) if err == nil { p.readSignal.Signal() return nil } if err == errSlowDown { p.readSignal.Signal() // Yield current goroutine. Hopefully the reading counterpart can pick up the payload. runtime.Gosched() return nil } if err == errBufferFull && p.option.discardOverflow { buf.ReleaseMulti(mb) return nil } if err != errBufferFull { buf.ReleaseMulti(mb) p.readSignal.Signal() return err } select { case <-p.writeSignal.Wait(): case <-p.done.Wait(): return io.ErrClosedPipe } } } func (p *pipe) Close() error { p.Lock() defer p.Unlock() if p.state == closed || p.state == errord { return nil } p.state = closed common.Must(p.done.Close()) return nil } // Interrupt implements common.Interruptible. func (p *pipe) Interrupt() { p.Lock() defer p.Unlock() if p.state == closed || p.state == errord { return } p.state = errord if !p.data.IsEmpty() { buf.ReleaseMulti(p.data) p.data = nil } common.Must(p.done.Close()) }