package commander import ( "context" "net" "sync" "v2ray.com/core/common/signal" "v2ray.com/core/transport/ray" ) type OutboundListener struct { buffer chan net.Conn done *signal.Done } func (l *OutboundListener) add(conn net.Conn) { select { case l.buffer <- conn: case <-l.done.C(): conn.Close() default: conn.Close() } } func (l *OutboundListener) Accept() (net.Conn, error) { select { case <-l.done.C(): return nil, newError("listern closed") case c := <-l.buffer: return c, nil } } func (l *OutboundListener) Close() error { l.done.Close() L: for { select { case c := <-l.buffer: c.Close() default: break L } } return nil } func (l *OutboundListener) Addr() net.Addr { return &net.TCPAddr{ IP: net.IP{0, 0, 0, 0}, Port: 0, } } type CommanderOutbound struct { tag string listener *OutboundListener access sync.RWMutex closed bool } func (co *CommanderOutbound) Dispatch(ctx context.Context, r ray.OutboundRay) { co.access.RLock() if co.closed { r.OutboundInput().CloseError() r.OutboundOutput().CloseError() co.access.RUnlock() return } closeSignal := signal.NewNotifier() c := ray.NewConnection(r.OutboundInput(), r.OutboundOutput(), ray.ConnCloseSignal(closeSignal)) co.listener.add(c) co.access.RUnlock() <-closeSignal.Wait() } func (co *CommanderOutbound) Tag() string { return co.tag } func (co *CommanderOutbound) Start() error { co.access.Lock() co.closed = false co.access.Unlock() return nil } func (co *CommanderOutbound) Close() error { co.access.Lock() co.closed = true co.listener.Close() co.access.Unlock() return nil }